# Simple Machines

### Topic Page

Simple Machines### Questions

- What is a lever?
- What is a pulley?
- How do a wheel and axle work?
- Why are simple machines not 100% efficient?
- Why is a fork a wedge?
- Why is a knife a wedge?
- Why is a ladder an inclined plane?
- Why is a zipper a simple machine?
- Why were simple machines invented?
- Question #8e654
- What mechanical advantage does a lever have?
- How can the mechanical advantage of a lever be increased?
- How do you calculate the actual mechanical advantage of a lever?
- How do you calculate the mechanical advantage of a second-class lever?
- How do you increase the mechanical advantage of a first-class lever?
- How do you increase the mechanical advantage of a third-class lever?
- What factors affect the mechanical advantage of a lever?
- How do pulleys work to provide a mechanical advantage?
- How can pulleys increase the mechanical advantage?
- How do pulleys provide mechanical advantage?
- What is a block and tackle pulley?
- A pulley with a mechanical advantage of 5 is used to lift a bucket weighing 285 N. How much force must be used to lift the bucket?
- If a pulley system with an ideal mechanical advantage of 2 is used in lifting a 2,000 lb. car, how far would the car move if the effort moved 2 ft.?
- Why would you use a single fixed pulley to lift a box if the mechanical advantage of the pulley is 1?
- What are all of the simple machines found in a washing machine?
- What are three types of simple machines used in an airplane?
- What simple machines are combined to make an axe?
- What simple machines are used in a swing set?
- Why is the actual mechanical advantage of a simple machine different from the ideal mechanical advantage?
- Question #5bb10
- Why are gears simple machines?
- How do simple machines change the direction of force?
- How can simple machines trade force for distance?
- How do you calculate the efficiency of a simple machine?
- A man is using a machine and applying 400 N of force. If the mechanical advantage of this machine is doubled, how much force would he have to apply?
- A lever is used to lift a heavy load. When a 52 N force pushes the left end of the lever down 0.71 m, the load rises 0.3m. If the lever is only 78% efficient, what would be the weight of the load it could lift with this output?
- A pulley system with 75% efficiency is set up to lift a 21kg bag of nails. The bag is lifted to a height of 2.3m by a person pulling on the rope with a force of 91.5N. What is the work done on the bag of nails by the pulley?
- A pulley system with 75% efficiency is set up to lift a 21kg bag of nails. The bag is lifted to a height of 2.3m by a person pulling on the rope with a force of 91.5N. What is the ideal mechanical advantage of this pulley system?
- A pulley system with 75% efficiency is set up to lift a 21kg bag of nails. The bag is lifted to a height of 2.3m by a person pulling on the rope with a force of 91.5N. What is the distance the rope must be pulled in order to lift the bag of nails?
- Question #48b19
- A balanced lever has two weights on it, one with mass #6 kg# and one with mass #5 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #12 kg# and one with mass #15 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #2 kg# and one with mass #8 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #2 kg# and one with mass #16 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #2 kg# and one with mass #15 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #8 kg# and one with mass #20 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #5 kg# and one with mass #20 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #1# #kg# and one with mass #8# #kg#. If the first weight is #9# #m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #2 kg# and one with mass #8 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #3 kg# and one with mass #8 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #4 kg# and one with mass #8 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #4 kg# and one with mass #2 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #8 kg# and one with mass #3 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, one with mass #1 kg# and one with mass #4 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #4 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #4 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #9 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #6 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #6 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #1 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #1 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #3 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #7 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #7 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #4 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #4 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #4 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #4 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #7 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #7 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #7 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #4 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #5 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #2 kg # and the second with mass #1 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #2 kg # and the second with mass #3 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #2 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #2 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #2 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #4 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #4 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #7 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #7 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #6 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #5 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #3 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #3 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #3 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #4 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #4 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #9 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #2 kg # and the second with mass #9 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #9 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #8 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #8 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #8 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #7 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #8 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #5 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #9 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #14 kg # and the second with mass #9 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #14 kg # and the second with mass #29 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #29 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #35 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #35 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #32 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #37 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #37 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #24 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #24 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #30 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #30 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #30 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #25 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #25 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #25 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #27 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #27 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #27 kg#. If the first weight is # 8 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #18 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #18 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #16 kg # and the second with mass #21 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #22 kg # and the second with mass #21 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #22 kg # and the second with mass #24 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #32 kg # and the second with mass #24 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #24 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #14 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #16 kg # and the second with mass #14 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #16 kg # and the second with mass #36 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #12 kg # and the second with mass #36 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #2 kg # and the second with mass #38 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #2 kg # and the second with mass #38 kg#. If the first weight is # 18 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #32 kg#. If the first weight is # 18 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #12 kg # and the second with mass #32 kg#. If the first weight is # 1 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #45 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #7 kg # and the second with mass #55 kg#. If the first weight is # 9 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #12 kg # and the second with mass #55 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #4 kg # and the second with mass #32 kg#. If the first weight is # 5 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #16 kg # and the second with mass #32 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #6 kg # and the second with mass #7 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #66 kg # and the second with mass #9 kg#. If the first weight is # 1 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #72 kg # and the second with mass #9 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #72 kg # and the second with mass #9 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #72 kg # and the second with mass #18 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #27 kg # and the second with mass #18 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #42 kg # and the second with mass #14 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #42 kg # and the second with mass #14 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #16 kg # and the second with mass #3 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #8 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #34 kg # and the second with mass #68 kg#. If the first weight is # 3 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #24 kg # and the second with mass #48 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #12 kg # and the second with mass #4 kg#. If the first weight is # 7 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #12 kg # and the second with mass #4 kg#. If the first weight is # 15 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #1 kg # and the second with mass #4 kg#. If the first weight is # 25 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #3 kg # and the second with mass #4 kg#. If the first weight is # 25 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #14 kg # and the second with mass #9 kg#. If the first weight is # 2 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #9 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #45 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #15 kg # and the second with mass #80 kg#. If the first weight is # 16 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #80 kg#. If the first weight is # 16 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #72 kg#. If the first weight is # 16 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #5 kg # and the second with mass #60 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #24 kg#. If the first weight is # 6 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #9 kg # and the second with mass #32 kg#. If the first weight is # 4 m# from the fulcrum, how far is the second weight from the fulcrum?
- A balanced lever has two weights on it, the first with mass #8 kg # and the second with mass #64 kg#. If the first weight is # 12 m# from the fulcrum, how far is the second weight from the fulcrum?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #4 m#, how much force is needed to raise the object?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #14 m#, how much force is needed to raise the object?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #14 m#, how much force is needed to raise the object?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #21 m#, how much force is needed to raise the object?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #21 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #21 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #1 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #1 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #12 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 m#. If the wheel attached to the axle has a radius of #12 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #12 m#, how much force is needed to raise the object?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #7 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #7 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #6 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #6 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #18 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #18 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #35 m#, how much force is needed to raise the object?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #35 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #36 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #39 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #39 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #32 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #32 m#. If the wheel attached to the axle has a radius of #16 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #32 m#. If the wheel attached to the axle has a radius of #24 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #27 m#. If the wheel attached to the axle has a radius of #24 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #27 m#. If the wheel attached to the axle has a radius of #21 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #29 m#. If the wheel attached to the axle has a radius of #21 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #49 m#. If the wheel attached to the axle has a radius of #21 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #21 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #18 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #27 m#. If the wheel attached to the axle has a radius of #18 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #63 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8# #kg# is hanging from an axle with a radius of #12# #m#. If the wheel attached to the axle has a radius of #63# #m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #63 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #16 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #4 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #42 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #30 m#. If the wheel attached to the axle has a radius of #4 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #30 m#. If the wheel attached to the axle has a radius of #9 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #30 m#. If the wheel attached to the axle has a radius of #9 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #9 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #39 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #15 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #54 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #15 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #54 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #14 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #84 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #72 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #88 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #1 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #64 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #6 m#. If the wheel attached to the axle has a radius of #31 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #6 m#. If the wheel attached to the axle has a radius of #32 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #33 m#. If the wheel attached to the axle has a radius of #17 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #33 m#. If the wheel attached to the axle has a radius of #60 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #33 m#. If the wheel attached to the axle has a radius of #69 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #36 m#. If the wheel attached to the axle has a radius of #69 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7# #kg# is hanging from an axle with a radius of #36# #m#. If the wheel attached to the axle has a radius of #9# #m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #36 m#. If the wheel attached to the axle has a radius of #72 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #58 m#. If the wheel attached to the axle has a radius of #72 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #58 m#. If the wheel attached to the axle has a radius of #70 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #4 m#. If the wheel attached to the axle has a radius of #2 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2# #kg# is hanging from an axle with a radius of #4# #m#. If the wheel attached to the axle has a radius of #2# #m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #2 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #12 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #3 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #24 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #25 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #28 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #12 kg# is hanging from an axle with a radius of #2 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #18 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #48 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #18 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #18 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #54 m#. If the wheel attached to the axle has a radius of #8 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #54 m#. If the wheel attached to the axle has a radius of #4 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #54 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #3 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #6 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #9 m#. If the wheel attached to the axle has a radius of #18 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #21 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #28 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #7 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #6 kg# is hanging from an axle with a radius of #6 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #6 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #72 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #72 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #24 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #2 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #1 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #24 m#. If the wheel attached to the axle has a radius of #12 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #12 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #19 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #5 m#. If the wheel attached to the axle has a radius of #20 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #4 m#. If the wheel attached to the axle has a radius of #20 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #4 m#. If the wheel attached to the axle has a radius of #26 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #4 m#. If the wheel attached to the axle has a radius of #16 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #16 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #14 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #54 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #52 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #14 m#. If the wheel attached to the axle has a radius of #42 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #42 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #24 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #12 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #48 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #16 m#. If the wheel attached to the axle has a radius of #96 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #30 m#. If the wheel attached to the axle has a radius of #96 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #30 m#. If the wheel attached to the axle has a radius of #95 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #95 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #90 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 m#. If the wheel attached to the axle has a radius of #9 m#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #90 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #75 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #60 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #60 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #45 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #12 cm#. If the wheel attached to the axle has a radius of #28 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #28 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #22 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #18 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #2 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #2 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #2 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #9 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #16 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #9 cm#. If the wheel attached to the axle has a radius of #27 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #12 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much force must be applied to the wheel to keep the object from falling?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #12 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much work would it take to turn the wheel #3 cm#?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #3 cm#?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #5 cm#?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #8 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #8 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #8 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel #2 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #2 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #22 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #12 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #48 cm#, how much work would it take to turn the wheel #36 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel #36 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel #36 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #36 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel #36 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel #6 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #16 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #6 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #6 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #16 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #32 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #4 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #32 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #4 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #4 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #4 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel #6 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #14 cm#. If the wheel attached to the axle has a radius of #27 cm#, how much work would it take to turn the wheel #6 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #14 cm#. If the wheel attached to the axle has a radius of #27 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #27 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #4 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #21 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #39 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel #9 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel #12 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #21 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel #12 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #21 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel #25 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #21 cm#. If the wheel attached to the axle has a radius of #14 cm#, how much work would it take to turn the wheel #25 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #21 cm#. If the wheel attached to the axle has a radius of #14 cm#, how much work would it take to turn the wheel #7 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel #3 cm#?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #2 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #38 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 cm#. If the wheel attached to the axle has a radius of #38 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #12 cm#. If the wheel attached to the axle has a radius of #45 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #42 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #5 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #56 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #56 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #55 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #65 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #125 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #15 cm#. If the wheel attached to the axle has a radius of #75 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #25 cm#. If the wheel attached to the axle has a radius of #75 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #7 kg# is hanging from an axle with a radius of #25 cm#. If the wheel attached to the axle has a radius of #35 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #25 cm#. If the wheel attached to the axle has a radius of #35 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #25 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #65 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #45 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #18 cm#. If the wheel attached to the axle has a radius of #45 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #27 cm#. If the wheel attached to the axle has a radius of #45 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #8 kg# is hanging from an axle with a radius of #27 cm#. If the wheel attached to the axle has a radius of #18 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #18 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #36 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #16 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #24 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #16 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #2 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #8 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #5 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #1 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #2 cm#. If the wheel attached to the axle has a radius of #16 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #28 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #3 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #44 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #96 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #120 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #90 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #3 cm#. If the wheel attached to the axle has a radius of #81 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #85 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #125 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #5 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #300 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #12 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #15 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #33 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #36 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #6 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #32 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #44 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #64 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- An object with a mass of #200 kg# is hanging from an axle with a radius of #8 cm#. If the wheel attached to the axle has a radius of #24 cm#, how much work would it take to turn the wheel a length equal to the circumference of the axle?
- What are the six simple machines?
- Question #a77d5
- What do first class levers always do?
- A wrench with a length of #25 cm# is used to unscrew a #3/2 cm# bolt. If a torque of #1 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #20 cm# is used to unscrew a #3/2 cm# bolt. If a torque of #8 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #20 cm# is used to unscrew a #3/2 cm# bolt. If a torque of #15 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #20 cm# is used to unscrew a #5/2 cm# bolt. If a torque of #12 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #15 cm# is used to unscrew a #5/2 cm# bolt. If a torque of #25 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #15 cm# is used to unscrew a #5/2 cm# bolt. If a torque of #15 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #10 cm# is used to unscrew a #5/2 cm# bolt. If a torque of #18 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #24 cm# is used to unscrew a #5/2 cm# bolt. If a torque of #5 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #20 cm# is being used to unscrew a #4/3 cm# bolt. If a torque of #1 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #20 cm# is being used to unscrew a #4/3 cm# bolt. If a torque of #5 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #12 cm# is being used to unscrew a #3 cm# bolt. If a torque of #5 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #15 cm# is being used to unscrew a #3 cm# bolt. If a torque of #1 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #15 cm# is being used to unscrew a #3 cm# bolt. If a torque of #12 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #24 cm# is being used to unscrew a #3 cm# bolt. If a torque of #7 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #24 cm# is being used to unscrew a #3 cm# bolt. If a torque of #12 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #24 cm# is being used to unscrew a #3 cm# bolt. If a torque of #88 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #40 cm# is being used to unscrew a #4 cm# bolt. If a torque of #32 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #40 cm# is being used to unscrew a #4 cm# bolt. If a torque of #15 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #42 cm# is being used to unscrew a #7/2 cm# bolt. If a torque of #18 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #42 cm# is being used to unscrew a #7/2 cm# bolt. If a torque of #42 N*m# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #42 cm# is being used to unscrew a #7/2 cm# bolt. If a torque of #32 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #35 cm# is being used to unscrew a #7/2 cm# bolt. If a torque of #36 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #63 cm# is being used to unscrew a #7/2 cm# bolt. If a torque of #18 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #54 cm# is being used to unscrew a #6 cm# bolt. If a torque of #90 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- A wrench with a length of #48 cm# is being used to unscrew a #6 cm# bolt. If a torque of #72 Nm# is needed to overcome the friction keeping the bolt in place, what is the minimum torque that must be applied to the wrench to unscrew the bolt?
- Question #7f0d7
- Question #0e31e
- Explain how real machines can never recover the full amount of energy they were supplied with?.
- Question #6ab05
- Question #006b4
- Question #a3649
- Solve it buddies???