find the box's speed vf at 3.0 s after you first started pushing on it.

A box of mass 3.06 kg slides down a rough vertical wall. The gravitational force on the box is 30 N . When the box reaches a speed of 2.5 m/s , you start pushing on one edge of the box at a 45? angle (use degrees in your calculations throughout this problem) with a constant force of magnitude Fp = 23 N , as shown in (Figure 1) . There is now a frictional force between the box and the wall of magnitude 13 N . How fast is the box sliding 2.8 s after you started pushing on it?

A/ Find the box's speed vf at 2.8 s after you first started pushing on it.

A box of mass 3.06 kg slides down a rough vertical wall. The gravitational force on the box is 30 N . When the box reaches a speed of 2.5 m/s , you start pushing on one edge of the box at a 45? angle (use degrees in your calculations throughout this problem) with a constant force of magnitude Fp = 23 N , as shown in (Figure 1) . There is now a frictional force between the box and the wall of magnitude 13 N . How fast is the box sliding 2.8 s after you started pushing on it?

As shown in the figure, a box is held at rest against a spring with a force constant that is compressed a distance d.

When the box is released, it slides across a surface that is frictionless, except for a rough patch that has a coefficient of kinetic friction and is in length.

(a) Calculate the spring's potential energy in terms of d

(b) Calculate the magnitude of the friction force (in N).

N

(c) Calculate the work done by the frictional force (in J). Be sure to include the correct sign in your answer.

J

(d) The speed of the box is after sliding across the rough patch. Calculate the initial compression d (in cm) of the spring.

cm

Suppose a cart of mass m = 478 g is initial moving at speed v0 =4.76 m/s. It strikes a spring attached to a fixed wall, comes to astop, and bounces back at speed vf = 2.95 m/s. Assume the track isfrictionless.

a) Find the magnitude of the impulse exerted by the spring on thecart.
I got 1.41 N*m which was wrong and I'm stuck at a dead end.

b) Find the energy lost in this collision.


c) If the cart was in contact with the spring for 450 ms, find theaverage force exerted by the spring on the cart.