A 100 kg box is sliding down a frictionless ramp inclined at 30o from the ground;...

A 30 kg block is put on a ramp of angle θ = 30o with coefficients...

A 30 kg block is put on a ramp of angle θ = 30o with coefficients of static friction 0.3 and kinetic friction 0.2; a force F1 = 150N is applied to the block to try to stop it from sliding down, but the force is applied directed at an angle of θ1 = 60o counterclockwise from the ramp upward incline a) On the drawing draw the forces and their components b) Derive the formula for the Normal force and...

A box with a mass of 275N rests on a frictionless ramp inclined at an angle...

A box with a mass of 275N rests on a frictionless ramp inclined at an angle of 25° to the level ground. What force must be applied to the box at an angle of 45° to the ramp so that it remains at rest? (Final answer should be 164.4N) Please show all work and try to write neatly.

Consider an object on a smooth ramp inclined at an angle θ from the ground, suspended...

Consider an object on a smooth ramp inclined at an angle θ from the ground, suspended in place by a force acting through a rope parallel to the surface of the ramp. If a Cartesian coordinate system is rotated such that the x-axis lies parallel to the surface of the ramp and the y-axis is perpendicular to the ramp, gravity is the only force that does not act parallel or perpendicular to either coordinate axis in this new rotated coordinate...

A box with a mass of 1000 kg is sliding down a ramp with a slope...

A box with a mass of 1000 kg is sliding down a ramp with a slope of 15º at an initial speed of 8 m/s. -Draw a free-body diagram of the car on the hill. All forces must be labelled. -What coefficient of kinetic friction, k, will result in the acceleration being 0 m/s^2 ?   -If the coefficient of kinetic friction is actually k=0.4 what is the box acceleration? -What is the stopping distance? -After sliding 10 m what is...

A boy with a mass of 30.0 kg is sliding down a snow covered hillside at...

A boy with a mass of 30.0 kg is sliding down a snow covered hillside at an angle of 25.00 degrees to the horizontal. Find the boy's acceleration if the coefficient of kinetic friction is 0.17. A box with a mass 26.50 kg if being pulled by three forces : F1 46.25 N , F2 10.00 N [164.50]o and F3 9.06 N [229.85]o. Determine the acceleration of the box. (Note direction is not required, quote your answer to 2 decimal...

A box with mass m = 1.2kg on an inclined frictionless surface is released from rest...

A box with mass m = 1.2kg on an inclined frictionless surface is released from rest from a height h = 1.35 m . After reaching the bottom of the incline the box slides with friction (μk=0.2) along a horizontal surface until coming to a rest after a distance d. 1. Draw a free body diagram for the box while it is on the incline. Clearly label all forces with standard names. 2. Draw a free body diagram for the...

The scenario is as follows: A 502 g block (.502 kg) is sitting at rest on...

The scenario is as follows: A 502 g block (.502 kg) is sitting at rest on a scale. The scale reads 502 g. Identify the forces acting on the block: Is the block in equilibrium? How do you know? Identify the forces acting on the scale. Is the scale in equilibrium? How do you know?   First draw a free body diagram for the block. Here you consider the block as your system of interest. Everything else is external.  Then draw a...

17. Action-reaction forces in third Newton’s law: a. Always act on the same object. b. Sometimes...

17. Action-reaction forces in third Newton’s law: a. Always act on the same object. b. Sometimes act of the same object. c. Always act on different objects. d. May or may not be antiparallel to each other. 18. If force exerted by horse on a cart is equal and opposite to the force exerted by cart on a horse, how does horse manage to move a cart? a. Horse has bigger mass than a cart. b. Horse still exerts greater...

Solve the following problem using Newtons Laws. Blocks A, B, and C are being pushed across...

Solve the following problem using Newtons Laws. Blocks A, B, and C are being pushed across a frictionless table by a hand that exerts a constant horizontal force. Block A has mass 2M, block B has mass 3M and block C has mass M. The blocks move to the left. a. Draw separate free-body diagrams for each block and a free-body diagram for the system. Label each force with • the object on which the force acts, • the object...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string,...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string, draw arrows (click on the “Shapes” tab) showing the forces acting on the ball (lengths can be arbitrary, but get the relative lengths of each force roughly correct). For this case of zero acceleration, use Newton’s 2nd law to find the magnitude of the tension force in the string, in units of Newtons. Since we will be considering motion in the horizontal xy plane,...