a force of 2.00 x 10^2 N acts on a 10.0 kg mass. What will be...

1) In the system shown, a horizontal force Fx = 40 N acts on an object...

1) In the system shown, a horizontal force Fx = 40 N acts on an object of mass m2 = 8.00 kg. A friction force fk = 5 N acts between object m2 and the table top, and m1 = 2.00 kg. i) Calculate the acceleration of the masses.? ii) Calculate the tension in the string. ? Hint ( mass 2 is on the table and mass 1 is hanging on air freely with a string tied to mass 2...

A force F= (3.14t)i+ 6.28j + (1.57t^2)k N acts on a mass of 0.785 kg in...

A force F= (3.14t)i+ 6.28j + (1.57t^2)k N acts on a mass of 0.785 kg in space, with initial velocity v= 7.21i + 9.76j + 3.25k (m/s). At t = 1.71 s, (a) What are the magnitude and direction of the acceleration? (relative to +z axis) (b) What are the magnitude and direction of the velocity? (relative to +y axis) (c) What are the magnitude and direction of the displacement? (relative to +x axis) (d) The angle between the velocity...

At 10 kg mass, sitting on the horizontal, is initially at rest. A force acts on...

At 10 kg mass, sitting on the horizontal, is initially at rest. A force acts on the mass acts for 10 seconds. The mass is pushed to Xt = 20 m (assume Xo = 0) determine (a) Vx avg (b) Vtx (c) ax (d) Fx

At time t = 0, force F→1=(-5.99î+8.78ĵ)N acts on an initially stationary particle of mass 1.80...

At time t = 0, force F→1=(-5.99î+8.78ĵ)N acts on an initially stationary particle of mass 1.80 × 10-3 kg and force F→2=(2.86î-3.46ĵ)N acts on an initially stationary particle of mass 3.68 × 10-3 kg. From time t = 0 to t = 2.97 ms, what are the (a) magnitude and (b) angle (relative to the positive direction of the x axis) of the displacement of the center of mass of the two-particle system? (c) What is the kinetic energy of...

Three forces act on an object. The first force of 10 N acts east, and the...

Three forces act on an object. The first force of 10 N acts east, and the second force of 10 N acts north. If the acceleration of the object is zero then the third force acts in the

2.    A horizontal, 50 N force acts on a 5 kg mass, which is initially at...

2.    A horizontal, 50 N force acts on a 5 kg mass, which is initially at rest on a frictionless surface. After the mass has traveled 45 m, find the following: (25 points)        Given: (1 point)        a. the work done by the force. (4 points)        b. the change in kinetic energy. (4 points)        c. speed of the mass after 45 m. (4 points)        d. the change in momentum of the mass. (4 points)        e....

A ball of mass m=2.00 kg is thrown vertically with velocity v0=10.0 m/s. a) What maximum...

A ball of mass m=2.00 kg is thrown vertically with velocity v0=10.0 m/s. a) What maximum height would it reach if the average force of air resistance were Fd= 5 N? [4.06 m] b) The ball lands on a spring (with k=200 N/m), which brings it to a stop 1 m above the launch point. How much would the spring compress before the ball stops? (Assume that air resistance acts the entire way) [0.67 m] I don't know how to...

A mass of 1.78 kg is initially at rest upon a horizontal surface. An applied force...

A mass of 1.78 kg is initially at rest upon a horizontal surface. An applied force of 16.4 N i then acts on the mass. If the coefficient of kinetic friction regarding the system is 0.479, what is the magnitude of the object's acceleration?

A 2.5-kg object moves across a rough horizontal surface. A force (F = 6.0 N) acts...

A 2.5-kg object moves across a rough horizontal surface. A force (F = 6.0 N) acts on the object as shown. The magnitude of the object’s acceleration is 1.2 m/s2. What is the magnitude of the force of friction acting on the block? The angle for the diagram is 30 degrees.

. A block of mass 2.00 kg is attached to a horizontal spring with a force...

. A block of mass 2.00 kg is attached to a horizontal spring with a force constant of 500 N/m. The spring is stretched 5.00 cm from its equilibrium position and released from rest. Use conservation of mechanical energy to determine the speed of the block as it returns to equilibrium (a) if the surface is frictionless (b) if the coefficient of kinetic friction between the block and the surface is 0.350