An electron of mass 9.1E-31 kg is released from rest at a distance of 5.4 E-10...

A 5 kg mass is released from rest 4 meters above the top of a vertical...

A 5 kg mass is released from rest 4 meters above the top of a vertical spring. The spring has an 80 N/m spring constant.  What is the maximum velocity of the mass?

An electron is released from rest at a negative plate of parallel-plate capacitor. If the distance...

An electron is released from rest at a negative plate of parallel-plate capacitor. If the distance across the plate Is 10mm and the potential difference across the plate is 100v, with what velocity does the electron hit the positive plate? (M=9.1x10^-31kg, e= 1.6x10^-19 C)

In the figure an electron (e) is to be released from rest on the central axis...

In the figure an electron (e) is to be released from rest on the central axis of a uniformly charged disk of radius R. The surface charge density on the disk is +4.15 μC/m2. What is the magnitude of the electron's initial acceleration if it is released at a distance (a) R, (b) R/146, and (c) R/1240 from the center of the disk?

An electron (mass m1 = 9.11 x 10-31 kg) and a proton (mass m2 = 1.67...

An electron (mass m1 = 9.11 x 10-31 kg) and a proton (mass m2 = 1.67 x10-27 kg) attract each other via an electrical force. Suppose that an electron and a proton are released from rest with an initial separation d = 3.50 x 10-6 m. When their separation has decreased to 1.40 x 10-6 m, what is the ratio of (a) the electron's linear momentum magnitude to the proton's linear momentum magnitude, (b) the electron's speed to the proton's...

A box of mass 10 kg is released from rest at point A, the top of...

A box of mass 10 kg is released from rest at point A, the top of a long frictionless slide.Point A is 20 meters above the level of points B and C is not. THe coefficient of kinetic friction between the box and this surface is uk and horizontal distance between Point B and C is 25 meters A)Find The speed of the box when its height above point B is 10 meters B) With respect to part A, find...

A mass m = 1.4 kg hangs at the end of a vertical spring whose top...

A mass m = 1.4 kg hangs at the end of a vertical spring whose top end is fixed to the ceiling. The spring has spring constant k = 75 N/m and negligible mass. At time t = 0 the mass is released from rest at a distance d = 0.35 m below its equilibrium height and undergoes simple harmonic motion with its position given as a function of time by y(t) = A cos(ωt – φ). The positive y-axis...

1. A cart of mass 2.0 kg is released off the floor from a distance of...

1. A cart of mass 2.0 kg is released off the floor from a distance of 3.5 m. What is the change in the potential energy of the ball? Show the calculations . 2. Later the same cart is released from rest, and it falls on the floor. What is the kinetic energy of the cart just before it hits the floor? What is its velocity before hitting? Show your calculations. 3. a) Suppose, an object is released in the...

An object of mass 120 kg is released from rest 480000 m above the ground and...

An object of mass 120 kg is released from rest 480000 m above the ground and allowed to fall under the influence of gravity. Assume the gravitational force is constant, with g=9.8 m/sec2 , and the force due to air resistance is proportional to the velocity of the object with proportionality constant k= 3 kg/sec. Approximate the speed (in m/sec) of the object when it strikes the ground.

An object of mass 5 kg is released from rest 24525 m above the ground and...

An object of mass 5 kg is released from rest 24525 m above the ground and allowed to fall under the influence of gravity. Assume the gravitational force is constant, with g=9.8 m/sec2 , and the force due to air resistance is proportional to the velocity of the object with proportionality constant k= 1 kg/sec. Approximate when (in seconds) the object will strike the ground.

A roller coaster car of mass 900 kg when released from rest at point A (height...

A roller coaster car of mass 900 kg when released from rest at point A (height h above the ground) slides along the track and inside the loop of radius 15.0 m. The car never loses contact with the track. Draw below a free body diagram for the car at the bottom of the loop. If the speed of the car at the bottom of the loop (point B) is 25 m/s, what is the normal force at that point?...