Torque

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Torque

Questions

Is torque measured in foot pounds?
Why is torque a vector?
What happens to torque at static equilibrium?
What units is torque measured in?
What is moment of force?
A bolt is to be tightened with a torque of 8.0 N*m. If you have a wrench that is 0.35 m long, what is the least amount of force you must exert?
How does torque differ from force?
How does torque differ from work?
How does torque affect rotational motion?
How does torque affect speed?
How can torque be increased?
How can torque be calculated?
What is an example of a practice problem related to torque?
What is torque?
How does torque relate to force?
How does torque differ from horsepower?
How can torque be measured?
A body builder at the gym is lifting a 50kg dumbell. His arm measures 47cm from hand to elbow and 39cm from elbow to shoulder. If he does a front shoulder raise so that his shoulder is in the center of the circle, how much torque will it require?
A mechanic can exert 113Nm of torque on his wrench. What is the torque exerted if the wrench were 7 times shorter AND the man could exert 5 times more force?
A mechanic can exert 113Nm of torque on his wrench. If the mechanic wants to create 2 times more torque with a wrench that is 3 times shorter, how does his force need to change?
To open a door, you push on the part of the door that is farthest from the hinges. Why would it be harder to open the door if you pushed on the center of it?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular speed changes from # 1 Hz# to # 2 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular speed changes from # 1 Hz# to # 3 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular speed changes from # 1 Hz# to # 4 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 1 Hz# to # 4 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 1 Hz# to # 6 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 16 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 3 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 4 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 5 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 9 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 9 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 8 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 6 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 5 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 3 Hz# to # 5 Hz# in # 1 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 5 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 2 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 3 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 5 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 12 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 12 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 9 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 7 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 6 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 3 Hz# to # 4 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 3 Hz# to # 8 Hz# in # 2 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 8 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 9 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 19 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 8 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 6 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 1 Hz# to # 5 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 5 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 2 Hz# to # 4 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 4 Hz# to # 8 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 4 Hz# to # 5 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 4 Hz# to # 9 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 4 Hz# to # 13 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #4 m#. If the object's angular velocity changes from # 4 Hz# to # 12 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 12 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 2 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 8 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 9 Hz# in # 3 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 9 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 2 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 7 Hz# to # 8 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #5 m#. If the object's angular velocity changes from # 7 Hz# to # 8 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #5 m#. If the object's angular velocity changes from # 1 Hz# to # 8 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 1 Hz# to # 8 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of #3 "kg"# is traveling in a circular path of a radius of #2 "m"#. If the object's angular velocity changes from #1 "Hz"# to #18 "Hz"# in # 5 "s"#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 1 Hz# to # 3 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 1 Hz# to # 5 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 5 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 3 Hz# to # 6 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 6 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 3 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 16 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 6 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #2 m#. If the object's angular velocity changes from # 2 Hz# to # 17 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #3 m#. If the object's angular velocity changes from # 2 Hz# to # 17 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #3 m#. If the object's angular velocity changes from # 2 Hz# to # 7 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #3 m#. If the object's angular velocity changes from # 12 Hz# to # 7 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #3 m#. If the object's angular velocity changes from # 4 Hz# to # 7 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #3 m#. If the object's angular velocity changes from # 4 Hz# to # 5 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 4 Hz# to # 5 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 6 Hz# to # 8 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 6 Hz# to # 9 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 6 Hz# to # 9 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 3 Hz# to # 9 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 3 Hz# to # 29 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 3 Hz# to # 7 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 6 Hz# to # 7 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 6 kg# is traveling in a circular path of a radius of # 1m#. If the object's angular velocity changes from # 6 Hz# to # 7 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 6 kg# is traveling in a circular path of a radius of # 1m#. If the object's angular velocity changes from # 6 Hz# to # 14 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #6 m#. If the object's angular velocity changes from # 6 Hz# to # 14 Hz# in #3 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #6 m#. If the object's angular velocity changes from # 6 Hz# to # 11 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #6 m#. If the object's angular velocity changes from # 6 Hz# to # 17 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 13Hz# to # 17 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 3Hz# to # 17 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 16 Hz# to # 17 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 14 Hz# to # 17 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 14 Hz# to # 23 Hz# in #5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #7 m#. If the object's angular velocity changes from # 14 Hz# to # 23 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 14 Hz# to # 23 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 4 Hz# to # 23 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 4 Hz# to # 34 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 25 Hz# to # 34 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 25 Hz# to # 28 Hz# in #9 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #15 m#. If the object's angular velocity changes from # 5 Hz# to # 3Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 5 Hz# to # 4 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 5 Hz# to # 4 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 15 Hz# to # 4 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 15 Hz# to # 6 Hz# in # 5 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 15 Hz# to # 6 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 15 Hz# to # 7 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 5 Hz# to # 7 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 2 Hz# to # 7 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 2 Hz# to # 12 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 5 Hz# to # 12 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 9 Hz# to # 12 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 9 Hz# to # 6 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #12 m#. If the object's angular velocity changes from # 4 Hz# to # 6 Hz# in # 6 s#, what torque was applied to the object?
An object with a mass of # 8 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 4 Hz# to # 6 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 7 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 5 Hz# to # 6 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 7 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 5 Hz# to # 1 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 7 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 5 Hz# to # 3 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 7 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 2 Hz# to # 23 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 2 Hz# to # 6 Hz# in # 8 s#, what torque was applied to the object?
An object with a mass of # 3 kg# is traveling in a circular path of a radius of #9 m#. If the object's angular velocity changes from # 9 Hz# to # 14 Hz# in # 8 s#, what torque was applied to the object?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #2 m# to change its horizontal spin by a frequency of #3 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #3 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #5 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #15 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #1 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #2 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #6 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #6 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #2 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #2 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #3 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #7 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #1 kg# to change its horizontal spin by a frequency of #7 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #7 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #7 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #6 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #6 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #9 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #15 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #3 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #3 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #4 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #4 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #4 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #2 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #2 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #12 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #5 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #5 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #2 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #3 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #13 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #13 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #12 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #3 kg# to change its horizontal spin by a frequency of #9 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #5 kg# to change its horizontal spin by a frequency of #9 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #5 kg# to change its horizontal spin by a frequency of #3 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #5 kg# to change its horizontal spin by a frequency of #3 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #5 # and a mass of #5 kg# to change its horizontal spin by a frequency of #3 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #5 # and a mass of #5 kg# to change its horizontal spin by a frequency of #2 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #5 kg# to change its horizontal spin by a frequency of #2 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #2 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #2 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #9 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #7 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #5 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #2 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #3 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #14 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #15 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #18 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #9 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency of #24 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency 4 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #2 kg# to change its horizontal spin by a frequency #7 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #2 kg# to change its horizontal spin by a frequency #2 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #2 kg# to change its horizontal spin by a frequency #2 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #2 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #3 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #7 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #6 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #6 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #5 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #7 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #3 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #3 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #16 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #12 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #12 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #15 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #9 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #3 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #4 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #14 Hz# over #6 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #14 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #3 kg# to change its horizontal spin by a frequency #18 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #3 kg# to change its horizontal spin by a frequency #18 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #18 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #1 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #1 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #1 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #2 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #5 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #2 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #15 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #5 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #6 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #18 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #16 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #15 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #7 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #8 kg# to change its horizontal spin by a frequency #7 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #8 m# and a mass of #6 kg# to change its horizontal spin by a frequency #7 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #6 kg# to change its horizontal spin by a frequency #7 Hz# over #3 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #6 kg# to change its horizontal spin by a frequency #7 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #6 kg# to change its horizontal spin by a frequency #5 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #6 kg# to change its horizontal spin by a frequency #5 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #8 kg# to change its horizontal spin by a frequency #8 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #8 kg# to change its horizontal spin by a frequency #8 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #8 kg# to change its horizontal spin by a frequency #8 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #8 kg# to change its horizontal spin by a frequency #4 Hz# over #5 s#?
What torque would have to be applied to a rod with a length of #6 m# and a mass of #8 kg# to change its horizontal spin by a frequency #4 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #8 kg# to change its horizontal spin by a frequency #9 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #2 kg# to change its horizontal spin by a frequency #9 Hz# over #2 s#?
What torque would have to be applied to a rod with a length of #4"m"# and a mass of #2"kg"# to change its horizontal spin by a frequency #9"Hz"# over #8"s"#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #2 kg# to change its horizontal spin by a frequency #8 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency #8 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #2 kg# to change its horizontal spin by a frequency #8 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #5 m# and a mass of #12 kg# to change its horizontal spin by a frequency #8 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #12 kg# to change its horizontal spin by a frequency #8 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #12 kg# to change its horizontal spin by a frequency #14 Hz# over #7 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #12 kg# to change its horizontal spin by a frequency #14 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #12 kg# to change its horizontal spin by a frequency #15 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #15 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #12 Hz# over #9 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #12 Hz# over #16 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #9 Hz# over #16 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #9 Hz# over #18 s#?
What torque would have to be applied to a rod with a length of #7 m# and a mass of #9 kg# to change its horizontal spin by a frequency #7 Hz# over #18 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #9 kg# to change its horizontal spin by a frequency #7 Hz# over #18 s#?
What torque would have to be applied to a rod with a length of #4 m# and a mass of #4 kg# to change its horizontal spin by a frequency #7 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #4 kg# to change its horizontal spin by a frequency #7 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #4 kg# to change its horizontal spin by a frequency #5 Hz# over #1 s#?
What torque would have to be applied to a rod with a length of #3 m# and a mass of #4 kg# to change its horizontal spin by a frequency #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #1 m# and a mass of #7 kg# to change its horizontal spin by a frequency #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #7 kg# to change its horizontal spin by a frequency #5 Hz# over #4 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #7 kg# to change its horizontal spin by a frequency #5 Hz# over #8 s#?
What torque would have to be applied to a rod with a length of #12 m# and a mass of #7 kg# to change its horizontal spin by a frequency #4 Hz# over #8 s#?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #5 Hz# to #3 Hz#. If the change in rotational frequency occurs over #1 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #2 Hz# to #3 Hz#. If the change in rotational frequency occurs over #1 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #2 Hz# to #12 Hz#. If the change in rotational frequency occurs over #5 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #2 Hz# to #12 Hz#. If the change in rotational frequency occurs over #5 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #2 Hz# to #17 Hz#. If the change in rotational frequency occurs over #3 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #5 Hz# to #17 Hz#. If the change in rotational frequency occurs over #3 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #5 Hz# to #17 Hz#. If the change in rotational frequency occurs over #6 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #1 m# and mass of #5 kg# constantly changes from #5 Hz# to #17 Hz#. If the change in rotational frequency occurs over #6 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #1 m# and mass of #5 kg# constantly changes from #6 Hz# to #24 Hz#. If the change in rotational frequency occurs over #6 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #1 m# and mass of #5 kg# constantly changes from #6 Hz# to #27 Hz#. If the change in rotational frequency occurs over #8 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #1 m# and mass of #5 kg# constantly changes from #16 Hz# to #27 Hz#. If the change in rotational frequency occurs over #12 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #1 m# and mass of #5 kg# constantly changes from #16 Hz# to #22 Hz#. If the change in rotational frequency occurs over #12 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #16 Hz# to #22 Hz#. If the change in rotational frequency occurs over #7 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #8 m# and mass of #5 kg# constantly changes from #16 Hz# to #5 Hz#. If the change in rotational frequency occurs over #7 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #4 m# and mass of #5 kg# constantly changes from #16 Hz# to #5 Hz#. If the change in rotational frequency occurs over #7 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #4 m# and mass of #5 kg# constantly changes from #12 Hz# to #5 Hz#. If the change in rotational frequency occurs over #7 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #4 m# and mass of #5 kg# constantly changes from #12 Hz# to #5 Hz#. If the change in rotational frequency occurs over #12 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #12 Hz# to #15 Hz#. If the change in rotational frequency occurs over #12 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #11 Hz# to #15 Hz#. If the change in rotational frequency occurs over #3 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #11 Hz# to #24 Hz#. If the change in rotational frequency occurs over #3 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #5 m# and mass of #5 kg# constantly changes from #11 Hz# to #24 Hz#. If the change in rotational frequency occurs over #1 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #5 m# and mass of #5 kg# constantly changes from #18 Hz# to #24 Hz#. If the change in rotational frequency occurs over #1 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #5 m# and mass of #5 kg# constantly changes from #12 Hz# to #10 Hz#. If the change in rotational frequency occurs over #9 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #4 m# and mass of #5 kg# constantly changes from #21 Hz# to #12 Hz#. If the change in rotational frequency occurs over #8 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #9 m# and mass of #5 kg# constantly changes from #21 Hz# to #12 Hz#. If the change in rotational frequency occurs over #5 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #9 m# and mass of #5 kg# constantly changes from #24 Hz# to #15 Hz#. If the change in rotational frequency occurs over #5 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #9 m# and mass of #5 kg# constantly changes from #32 Hz# to #15 Hz#. If the change in rotational frequency occurs over #6 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #9 m# and mass of #5 kg# constantly changes from #32 Hz# to #18 Hz#. If the change in rotational frequency occurs over #6 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #6 m# and mass of #5 kg# constantly changes from #32 Hz# to #18 Hz#. If the change in rotational frequency occurs over #8 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #2 m# and mass of #5 kg# constantly changes from #27 Hz# to #18 Hz#. If the change in rotational frequency occurs over #8 s#, what torque was applied to the disk?
The rate of rotation of a solid disk with a radius of #2 m# and mass of #5 kg# constantly changes from #27 Hz# to #18 Hz#. If the change in rotational frequency occurs over #3 s#, what torque was applied to the disk?
A solid disk with a radius of #5 m# and mass of #3 kg# is rotating on a frictionless surface. If #45 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #5 m# and mass of #4 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #5 m# and mass of #4 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #5 m# and mass of #4 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #5 m# and mass of #4 kg# is rotating on a frictionless surface. If #3 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #5 m# and mass of #2 kg# is rotating on a frictionless surface. If #3 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #6 m# and mass of #2 kg# is rotating on a frictionless surface. If #3 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #6 m# and mass of #8 kg# is rotating on a frictionless surface. If #3 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #6 m# and mass of #8 kg# is rotating on a frictionless surface. If #3 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #6 m# and mass of #8 kg# is rotating on a frictionless surface. If #18 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #6 m# and mass of #8 kg# is rotating on a frictionless surface. If #18 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #2 m# and mass of #3 kg# is rotating on a frictionless surface. If #18 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #2 m# and mass of #3 kg# is rotating on a frictionless surface. If #36 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #2 m# and mass of #3 kg# is rotating on a frictionless surface. If #36 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #2 m# and mass of #3 kg# is rotating on a frictionless surface. If #36 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #1 m# and mass of #2 kg# is rotating on a frictionless surface. If #36 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #1 m# and mass of #2 kg# is rotating on a frictionless surface. If #72 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #5 m# and mass of #2 kg# is rotating on a frictionless surface. If #72 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #5 m# and mass of #3 kg# is rotating on a frictionless surface. If #72 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #4 m# and mass of #3 kg# is rotating on a frictionless surface. If #72 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #8 m# and mass of #6 kg# is rotating on a frictionless surface. If #72 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #8 m# and mass of #6 kg# is rotating on a frictionless surface. If #60 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #8 m# and mass of #6 kg# is rotating on a frictionless surface. If #60 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #8 m# and mass of #6 kg# is rotating on a frictionless surface. If #60 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #3 m# and mass of #4 kg# is rotating on a frictionless surface. If #60 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #3 m# and mass of #4 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #3 m# and mass of #4 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #3 m# and mass of #9 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #6 m# and mass of #9 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #6 m# and mass of #2 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #6 m# and mass of #2 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #7 m# and mass of #12 kg# is rotating on a frictionless surface. If #120 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #7 m# and mass of #12 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #7 m# and mass of #12 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #2 m# and mass of #12 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #1 Hz#?
A solid disk with a radius of #2 m# and mass of #2 kg# is rotating on a frictionless surface. If #15 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #1 Hz#?
A solid disk with a radius of #2 m# and mass of #2 kg# is rotating on a frictionless surface. If #32 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #1 Hz#?
A solid disk with a radius of #2 m# and mass of #2 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #16 Hz#?
A solid disk with a radius of #8# #m# and mass of #2# #kg# is rotating on a frictionless surface. If #640# #W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #16# #Hz#?
A solid disk with a radius of #8 m# and mass of #4 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #16 Hz#?
A solid disk with a radius of #8 m# and mass of #5 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #16 Hz#?
A solid disk with a radius of #12 m# and mass of #8 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #16 Hz#?
A solid disk with a radius of #12 m# and mass of #8 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #9 m# and mass of #8 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #4 kg# is rotating on a frictionless surface. If #640 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #4 kg# is rotating on a frictionless surface. If #360 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #4 kg# is rotating on a frictionless surface. If #360 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #9 m# and mass of #8 kg# is rotating on a frictionless surface. If #360 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #8 m# and mass of #8 kg# is rotating on a frictionless surface. If #360 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #8 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #6 Hz#?
A solid disk with a radius of #3 m# and mass of #12 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #3 m# and mass of #12 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #12 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #2 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #15 Hz#?
A solid disk with a radius of #9 m# and mass of #2 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #3 m# and mass of #2 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #3 m# and mass of #7 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #18 m# and mass of #6 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #18 m# and mass of #6 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #24 m# and mass of #6 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #24 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #3 Hz#?
A solid disk with a radius of #24 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #18 Hz#?
A solid disk with a radius of #21 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #18 Hz#?
A solid disk with a radius of #2 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #18 Hz#?
A solid disk with a radius of #2 m# and mass of #8 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #2 m# and mass of #4 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #2 m# and mass of #6 kg# is rotating on a frictionless surface. If #480 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #12 m# and mass of #5 kg# is rotating on a frictionless surface. If #450 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #7 Hz#?
A solid disk with a radius of #12 m# and mass of #5 kg# is rotating on a frictionless surface. If #450 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #6 m# and mass of #5 kg# is rotating on a frictionless surface. If #240 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #8 Hz#?
A solid disk with a radius of #6 m# and mass of #3 kg# is rotating on a frictionless surface. If #240 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #1 Hz#?
A solid disk with a radius of #3 m# and mass of #3 kg# is rotating on a frictionless surface. If #240 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #3 m# and mass of #2 kg# is rotating on a frictionless surface. If #240 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #2 m# and mass of #2 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #9 Hz#?
A solid disk with a radius of #4 m# and mass of #6 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #5 Hz#?
A solid disk with a radius of #4 m# and mass of #6 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #12 Hz#?
A solid disk with a radius of #8 m# and mass of #6 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #25 Hz#?
A solid disk with a radius of #8 m# and mass of #9 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #28 Hz#?
A solid disk with a radius of #8 m# and mass of #9 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #32 Hz#?
A solid disk with a radius of #6 m# and mass of #9 kg# is rotating on a frictionless surface. If #960 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #32 Hz#?
A solid disk with a radius of #6 m# and mass of #9 kg# is rotating on a frictionless surface. If #750 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #9 m# and mass of #4 kg# is rotating on a frictionless surface. If #750 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
A solid disk with a radius of #3 m# and mass of #4 kg# is rotating on a frictionless surface. If #750 W# of power is used to increase the disk's rate of rotation, what torque is applied when the disk is rotating at #4 Hz#?
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