# Newton's Second Law

### Topic Page

Newton's Second Law### Questions

- What are some common mistakes students make with Newton's second law?
- How does Newton's second law relate to inertia?
- How does Newton's second law relate to the force of gravity?
- How can I calculate the Newton's second law?
- How is it possible to demonstrate Newton's second law?
- What force will a car hit a tree If the car has a mass of 3000kg and is accelerating at a rate of 2m/s2?
- Why is the Newton's second law called the equation law?
- Use Newton's second law of motion to calculate the acceleration of a 7kg mass if a force of 68.6N acts on it?
- A force of 63N acting upon a given object results in an acceleration of 9 m/s^2. If the magnitude of the force acting upon the same object is changed to 28 N, what will the object's acceleration become?
- A 31.9 kg boy and a 55.6 kg girl are on the surface of a frozen lake, 10.0 m apart. Using a rope, the boy exerts a horizontal 5.05 N force on the girl, pulling her toward him. Calculate the magnitude of the boy's acceleration.
- Explain why a 1375kg car with the same engine, producing the same acceleration (16m/s/s) as a 1400kg car might have a slight advantage? The 1400kg car uses a force of 22,400N and the 1375kg car uses a force of 22,000N to accelerate. Someone please help?
- What is the net force acting on a yo-yo when it doesn't move?
- What is an example that demonstrates Newton's second law?
- How does friction affect Newton's second law?
- How does Newton's second law apply to a car crash?
- How does Newton's second law apply to swimming?
- What is the relationship between mass and acceleration for cars?
- Two cylinders of mass m and radius R are rolling without slipping on an inclined plane. On them, there is a plank of mass M moving without slipping. How do you find the acc. of the plank depending on the acc. of one cylinder with Newton's laws ?
- What is the relationship between net force and acceleration?
- A net force of 10 N gives an object an acceleration of 5 m/s2. What net force would give the same object an acceleration of 8 m/s2?
- Question #b1ade
- Question #48a6d
- If the man pushes with a force of 1005N, the box will slide up the ramp at a rate of 1.1m/s². How much normal force is acting on the box?
- The air exerts a forward force of #10# #N# on the propeller of a #.20#-#kg# model airplane. If the plane accelerates forward at #2.0# #m##/##s^2#, what is the magnitude of the resistive force exerted by the air on the airplane?
- The maximum force that a grocery bag can withstand without ripping is #250# #N#. The bag is filled with #20# #kg# of groceries and lifted with an acceleration of #5.0# #m##/##s^2#. Do the groceries stay in the bag?
- Question #32f25
- A block weighing #15 kg# is on a plane with an incline of #pi/3# and friction coefficient of #1/10#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #10 kg# is on a plane with an incline of #pi/6# and friction coefficient of #1/2#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #14 kg# is on a plane with an incline of #pi/12# and friction coefficient of #1/5#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #14 kg# is on a plane with an incline of #pi/6# and friction coefficient of #1/5#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #8 kg# is on a plane with an incline of #pi/4# and friction coefficient of #2#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #9 kg# is on a plane with an incline of #(7pi)/12# and friction coefficient of #1/3#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #4 kg# is on a plane with an incline of #(pi)/2# and friction coefficient of #1#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #4 kg# is on a plane with an incline of #(pi)/2# and friction coefficient of #4/5#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #4 kg# is on a plane with an incline of #(2pi)/3# and friction coefficient of #4/5#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #6 kg# is on a plane with an incline of #(5pi)/6# and friction coefficient of #4/5#. How much force, if any, is necessary to keep the block from sliding down?
- A block weighing #6 kg# is on a plane with an incline of #(3pi)/8# and friction coefficient of #2/5#. How much force, if any, is necessary to keep the block from sliding down?
- How fast will an object with a mass of #8kg# accelerate if a force of #20 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #14 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #7 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #9 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #17 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #23 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #3 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #25 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #32 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #2 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #15 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #5 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #16 N# is constantly applied to it?
- How fast will an object with a mass of #6 kg# accelerate if a force of #16 N# is constantly applied to it?
- How fast will an object with a mass of #6 kg# accelerate if a force of #12 N# is constantly applied to it?
- How fast will an object with a mass of #6 kg# accelerate if a force of #18 N# is constantly applied to it?
- How fast will an object with a mass of #6 kg# accelerate if a force of #24 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #24 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #27 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #7 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #19 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #5 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #8 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #6 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #14 N# is constantly applied to it?
- How fast will an object with a mass of #3 kg# accelerate if a force of #17 N# is constantly applied to it?
- How fast will an object with a mass of #7 kg# accelerate if a force of #1 N# is constantly applied to it?
- How fast will an object with a mass of #7 kg# accelerate if a force of #2 N# is constantly applied to it?
- How fast will an object with a mass of #7 kg# accelerate if a force of #8 N# is constantly applied to it?
- How fast will an object with a mass of #7 kg# accelerate if a force of #9 N# is constantly applied to it?
- How fast will an object with a mass of #7 kg# accelerate if a force of #38 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #34 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #38 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #35 N# is constantly applied to it?
- How fast will an object with a mass of #4 kg# accelerate if a force of #73 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #29 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #63 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #44 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #76 N# is constantly applied to it?
- How fast will an object with a mass of #8 kg# accelerate if a force of #23 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #3 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #4 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #14 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #12 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #8 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #24 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #64 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #96 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #88 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #72 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #48 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #92 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #68 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #62 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #40 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #20 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #440 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #36 N# is constantly applied to it?
- How fast will an object with a mass of #16 kg# accelerate if a force of #32 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #32 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #35 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of # 72 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of # 75 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #96 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #85 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #36 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #10 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #20 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #35 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #40 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #30 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #42 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force of #48 N# is constantly applied to it?
- How fast will an object with a mass of #15 kg# accelerate if a force 95 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force 96 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 12 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 4 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force #36 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force #54 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 66 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 30 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 33 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 45 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 63 N# is constantly applied to it?
- How fast will an object with a mass of #24 kg# accelerate if a force # 39 N# is constantly applied to it?
- An object with a mass of #5 kg# is hanging from a spring with a constant of #5 kgs^-2#. If the spring is stretched by #3 m#, what is the net force on the object?
- An object with a mass of #5 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by #6 m#, what is the net force on the object?
- An object with a mass of #5 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by #2 m#, what is the net force on the object?
- An object with a mass of #5"kg"# is hanging from a spring with a constant of #3 "kg/s"^2#. If the spring is stretched by #3"m"#, what is the net force on the object?
- An object with a mass of #5 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by #7 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by #9 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by #9 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #4 (kg)/s^2#. If the spring is stretched by #9 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #4 (kg)/s^2#. If the spring is stretched by #2 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #4 (kg)/s^2#. If the spring is stretched by #8 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #4 (kg)/s^2#. If the spring is stretched by #18 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #4 (kg)/s^2#. If the spring is stretched by #12 m#, what is the net force on the object?
- An object with a mass of #3 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #1 m#, what is the net force on the object?
- An object with a mass of #3 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #2 m#, what is the net force on the object?
- An object with a mass of #3# #kg# is hanging from a spring with a constant of #8# #kgs^-2#. If the spring is stretched by #3# #m#, what is the net force on the object?
- An object with a mass of #3 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #4 m#, what is the net force on the object?
- An object with a mass of #3 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #6 m#, what is the net force on the object?
- An object with a mass of #3 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #8 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #8 (kg)/s^2#. If the spring is stretched by #8 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by #2 m#, what is the net force on the object?
- An object with a mass of #4# #kg# is hanging from a spring with a constant of #2# #kgs^-2#. If the spring is stretched by #4# #m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by #5 m#, what is the net force on the object?
- An object with a mass of #4# #kg# is hanging from a spring with a constant of #2# #kgs^-2#. If the spring is stretched by # 7# #m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 8 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 12 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 16 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 18 m#, what is the net force on the object?
- An object with a mass of #4# #kg# is hanging from a spring with a constant of #2# #kgs^-2#. If the spring is stretched by # 20# #m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 10 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 3 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 5 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 6 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 8 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 9 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 12 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 13 m#, what is the net force on the object?
- An object with a mass of #4 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 24 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 1 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 2 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 3 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 5 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 17 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 8 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 kgs^-2#. If the spring is stretched by # 9 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 19 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 9 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #2 (kg)/s^2#. If the spring is stretched by # 14 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 1 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 2 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 5 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 7 m#, what is the net force on the object?
- An object with a mass of #7 kg# is hanging from a spring with a constant of #3 (kg)/s^2#. If the spring is stretched by # 12 m#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 kgs^-2#. If the spring is stretched by # 12 m#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 (kg)/s^2#. If the spring is stretched by # 1 m#, what is the net force on the object?
- An object with a mass of #8# #kg# is hanging from a spring with a constant of #9# #kgs^-2#. If the spring is stretched by # 3# # m#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 (kg)/s^2#. If the spring is stretched by # 5 m#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 (kg)/s^2#. If the spring is stretched by # 14 m#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 (kg)/s^2#. If the spring is stretched by # 17 m#, what is the net force on the object?
- An object with a mass of #8 quad "kg"# is hanging from a spring with a constant of #9 quad "kg/s"^2#. If the spring is stretched by #13 quad "m"#, what is the net force on the object?
- An object with a mass of #8 kg# is hanging from a spring with a constant of #9 (kg)/s^2#. If the spring is stretched by # 11 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #12 (kg)/s^2#. If the spring is stretched by # 1 m#, what is the net force on the object?
- An object with a mass of #6# #kg# is hanging from a spring with a constant of #12# #kgs^-2#. If the spring is stretched by # 2# #m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #12 (kg)/s^2#. If the spring is stretched by # 12 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #12 (kg)/s^2#. If the spring is stretched by # 9 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #12 (kg)/s^2#. If the spring is stretched by # 19 m#, what is the net force on the object?
- An object with a mass of #6 kg# is hanging from a spring with a constant of #12 (kg)/s^2#. If the spring is stretched by # 29 m#, what is the net force on the object?
- An object with a mass of #3 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed with #8 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #19 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #1 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #7 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #9 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #9 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #5 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with #6 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 3 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 1 5 N # of force, what is the net force on the object?
- An object with a mass of #4 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 1 N # of force, what is the net force on the object?
- An object with a mass of #6 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 1 N # of force, what is the net force on the object?
- An object with a mass of #6 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 2N # of force, what is the net force on the object?
- An object with a mass of #6 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 6 N # of force, what is the net force on the object?
- An object with a mass of #6 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 8 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/12 #. If the object is being pushed up the plane with # 8 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 1 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 8 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 5 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 3 N # of force, what is the net force on the object?
- An object with a mass of #8 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 12 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 1 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 3 N # of force, what is the net force on the object?
- An object with a mass of #2 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 8 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 8 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 4 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 9 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 3 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 15 N # of force, what is the net force on the object?
- An object with a mass of #5 kg# is on a plane with an incline of #pi/8 #. If the object is being pushed up the plane with # 18 N # of force, what is the net force on the object?
- You are carrying a 1.3 gallon jug full of cold water. Given that the water has a density of 1.0 grams per milliliter, and one gallon is equal to 3.8 liters, what is the mass of the water in kilograms?
- Newton's second law states that the net force equals the product of mass and acceleration. A boat's mass of is #9.6×105 kg# and it experiences a net force of #1.5×104 kg*m/s^2#. What is its acceleration?
- When you ride a bicycle at full speed and the bike stops suddenly, why do you have to push hard on the handlebars to keep from flying forward?
- Question #f2053
- Question #580ba
- If 70% of Earth's surface is water, on average 1 mile deep, what is the mass of the Earth's water in kilograms?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= <10 N , 6 N># and the second is #F_2 = <4 N, 16 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= <2 N , 6 N># and the second is #F_2 = <4 N, -3 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= < -1 N , 8 N># and the second is #F_2 = < 6 N, -3 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -1 N , 8 N># and the second is #F_2 = < 6 N, -3 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -3 N , 8 N># and the second is #F_2 = < 6 N, -3 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -7 N , 1 N># and the second is #F_2 = < 6 N, -3 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= << -7 N , 1 N >># and the second is #F_2 = << 4 N, -3 N >>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -7 N , 1 N># and the second is #F_2 = < 4 N, -5 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -7 N , -1 N># and the second is #F_2 = < 4 N, -5 N>#. What is the objects rate and direction of acceleration?
- An object with a mass of #9 kg# is acted on by two forces. The first is #F_1= < -2 N , -1 N># and the second is #F_2 = < 8 N, -5 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= < 1 N , -1 N># and the second is #F_2 = < 5 N, 2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= < 1 N , 4 N># and the second is #F_2 = < 5 N, 2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= < 1 N , 4 N># and the second is #F_2 = < 5 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #5 kg# is acted on by two forces. The first is #F_1= < 1 N , 4 N># and the second is #F_2 = < 2 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 1 N , 4 N># and the second is #F_2 = < 2 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 2 N , 8 N># and the second is #F_2 = < 2 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 2 N , 8 N># and the second is #F_2 = < -1 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 2 N , -3 N># and the second is #F_2 = < -1 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 7 N , -3 N># and the second is #F_2 = < -1 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -2 N , -3 N># and the second is #F_2 = < -1 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -2 N , -3 N># and the second is #F_2 = < -1 N, 1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -2 N , -3 N># and the second is #F_2 = < 7 N, 1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -2 N , -5 N># and the second is #F_2 = < 7 N, 1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -2 N , -5 N># and the second is #F_2 = < 7 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -6 N , -5 N># and the second is #F_2 = < 7 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < -6 N , -5 N># and the second is #F_2 = < 3 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -2 N , 1 N># and the second is #F_2 = < 3 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -2 N , 1 N># and the second is #F_2 = < 3 N, -1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -9 N , 7 N># and the second is #F_2 = < -4 N, -1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -9 N , 2 N># and the second is #F_2 = < -4 N, -3 N>#. What is the object's magnitude and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -9 N , 2 N># and the second is #F_2 = < 6 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #8 kg# is acted on by two forces. The first is #F_1= < -3 N , 2 N># and the second is #F_2 = < 6 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -3 N , 2 N># and the second is #F_2 = < 6 N, -3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -4 N , 2 N># and the second is #F_2 = < 2 N, -8 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4# #kg# is acted on by two forces. The first is #F_1=<-4# #N, 5# #N># and the second is #F_2 = <2# #N, -8# #N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -4 N , 5 N># and the second is #F_2 = < 1 N, -8 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , -6 N># and the second is #F_2 = < 1 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , -6 N># and the second is #F_2 = < 5 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , -6 N># and the second is #F_2 = < 5 N, 2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , -1 N># and the second is #F_2 = < 5 N, 2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 8 N , -6 N># and the second is #F_2 = < 2 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 8 N , -4 N># and the second is #F_2 = < 2 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 3 N , -4 N># and the second is #F_2 = < 2 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 3 N , -4 N># and the second is #F_2 = < 7 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 3 N , 2 N># and the second is #F_2 = < 7 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 2 N># and the second is #F_2 = < 7 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 2 N># and the second is #F_2 = < 1 N, 6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 2 N># and the second is #F_2 = < 1 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 2 N># and the second is #F_2 = < -2 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 8 N># and the second is #F_2 = < -2 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -1 N , 8 N># and the second is #F_2 = < -2 N, 5 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -1 N , 3 N># and the second is #F_2 = < 6 N, 5 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -6 N , 3 N># and the second is #F_2 = < 6 N, 5 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -5 N , 7 N># and the second is #F_2 = < 4 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 8 N , -2 N># and the second is #F_2 = < -5 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 6 N , -2 N># and the second is #F_2 = < -5 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 6 N , -2 N># and the second is #F_2 = < -3 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < 6 N , 4 N># and the second is #F_2 = < -3 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -7 N , 4 N># and the second is #F_2 = < -3 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -7 N , 4 N># and the second is #F_2 = < 8 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , 4 N># and the second is #F_2 = < 3 N, 5 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -2 N , 4 N># and the second is #F_2 = < 3 N, -8 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= < -3 N , 6 N># and the second is #F_2 = < 7 N, -8 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= <1 N , 8 N># and the second is #F_2 = < 7 N, -8 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #4 kg# is acted on by two forces. The first is #F_1= <4 N , 8 N># and the second is #F_2 = < 1 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <4 N , 8 N># and the second is #F_2 = < 1 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <4 N , 6 N># and the second is #F_2 = < 1 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <4 N , 6 N># and the second is #F_2 = < 1 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 6 N># and the second is #F_2 = < 1 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 6 N># and the second is #F_2 = < 2 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 1 N># and the second is #F_2 = < 2 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 7 N># and the second is #F_2 = < 2 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 7 N># and the second is #F_2 = < 2 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <5 N , 7 N># and the second is #F_2 = < 8 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <-3 N , 1 N># and the second is #F_2 = < 6 N, -2 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= <-3 N , -5 N># and the second is #F_2 = < 6 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 8 N , -5 N># and the second is #F_2 = < 6 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 2 N , -7 N># and the second is #F_2 = < 1 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 2 N , -7 N># and the second is #F_2 = < 1 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 2 N , 5 N># and the second is #F_2 = < 1 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 3 N , 5 N># and the second is #F_2 = < 7 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 9 N , 5 N># and the second is #F_2 = < 7 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 9 N , 5 N># and the second is #F_2 = < 4 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -2 N , 5 N># and the second is #F_2 = < 4 N, -6 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -2 N , 5 N># and the second is #F_2 = < 4 N, -1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -2 N , 8 N># and the second is #F_2 = < 4 N, -1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -9 N , 8 N># and the second is #F_2 = < 4 N, -1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -9 N , 8 N># and the second is #F_2 = < -7 N, -4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 6 N , 8 N># and the second is #F_2 = < -7 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 8 N , 3 N># and the second is #F_2 = < -7 N, 1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < 2 N , 3 N># and the second is #F_2 = < -7 N, 1 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 2 N , 7 N># and the second is #F_2 = < -9 N, 4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 5 N , 6 N># and the second is #F_2 = < -9 N, 4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 5 N , 6 N># and the second is #F_2 = < 3 N, 4 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 5 N , 6 N># and the second is #F_2 = < 3 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 5 N , 3 N># and the second is #F_2 = < 3 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14# #kg# is acted on by two forces. The first is #F_1= < 5 N , 3 N># and the second is #F_2 = < 2 N, 7 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 5 N , 3 N># and the second is #F_2 = < 2 N, 9 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 4 N , 6 N># and the second is #F_2 = < 2 N, 9 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #14 kg# is acted on by two forces. The first is #F_1= < 4 N , 6 N># and the second is #F_2 = < 5 N, 9 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #3 kg# is acted on by two forces. The first is #F_1= < 4 N , 1 N># and the second is #F_2 = < 5 N, 9 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -6 N , 1 N># and the second is #F_2 = < 4 N, 9 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -6 N , 2 N># and the second is #F_2 = < 6 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #2 kg# is acted on by two forces. The first is #F_1= < -6 N , 2 N># and the second is #F_2 = < 1 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #6 kg# is acted on by two forces. The first is #F_1= < -6 N , 2 N># and the second is #F_2 = < 1 N, 3 N>#. What is the object's rate and direction of acceleration?
- An object with a mass of #6 kg# is acted on by two forces. The first is #F_1= < -1 N , 5 N># and the second is #F_2 = < 7 N, 3 N>#. What is the object's rate and direction of acceleration?
- A remote control car has a mass of #15.5kg# and is accelerating on the road. The car starts from rest and reaches a velocity of #11m/s[E]# in #19.5s#. What is the force applied by the car on the road? Neglect frictional forces.
- A point object is moving on the cartesian coordinate plane according to: #vecr(t)=b^2thatu_x+(ct^3−q_0)hatu_y#. Determine: a) The equation of the trajectory of object on the cartesian plane b) The magnitude and direction of the velocity?
- A point object is moving on the cartesian coordinate plane according to: #vecr(t)=b^2thatu_x+(ct^3−q_0)hatu_y#. Determine: a) The equation of the trajectory of object on the cartesian plane b) The magnitude and direction of the velocity?
- Question #0eef1
- Question #fb85a
- Question #c26f8
- Why are passengers thrown outward when d vehicle in which they r travelling takes a sudden turn around a circular road???
- Question #59015
- Question #a44ca
- Can we say that Tension is also a form of normal reaction? as whenever we apply force on a wire or rope,it applies counter force on us which is tension,which is perpendicular to us.
- Question #9c55a
- Question #d734d
- Question #bdbbe
- Question #3abf0
- Question #08420
- What would be the forces on the free-body diagram of a flag?
- If two people pull on either side of a rope with a force of 250 N why do we say that the force of tension in the rope 250 N?
- If two people pull on either side of the rope with a force of 65N, why is the tension in the rope 65N?
- Question #d96eb
- Question #19d8d
- Question #42d4c
- Question #51a0d
- Question #1f1e2
- Question #9cde2
- Question #afafa
- Question #9e417
- Question #9bebe
- Calculate the force on 2 kg block?
- Mary applies a force of 71 N to push a box with an acceleration of 0.54 m/s2. When she increases the pushing force to 80 N, the box's acceleration changes to 0.69 m/s2. (a) What is the mass of the box?
- Question #b10d6
- Question #4dc1e
- Why, according to Newton's laws, can superman not fly?
- Question #ccda2
- The velocity of a snail changes from stationary to 0.01m/s in 5 seconds. The mass of this snail is 0.05kg. Calculate the acceleration of the force produced by this snail? A #10^-2#N B #10^-3#N C #10^-4#N D #10^-5#N
- Question #59993
- The acceleration of a sled is #2"m"//"s"^2#. What is the acceleration of the sled if we triple the net force and halve the mass?
- The net force on an object of #14000"N"# causes it to accelerate at a rate of #5"m"//"s"^2#. What is the mass of the object?
- An elevator weighing 16917 N is supported by a steel cable. What is the tension in the cable when the elevator is being accelerated upwards at a rate of #2.5m/s^2#? (#g=9.80m/s^2#)
- Does a constant speed indicate dynamic equilibrium?
- A 50 kg skater pushed by a friend accelerates at 5 m/s. How much force did the friend apply?