Area under force time graph gives change in momentum
So ½×(3-1)×12 = m(v-(-1.5))
12 = 2(v+1.5)
v = 4.5 m/s towards +x direction
(b) Only the kinetic energy of the system s W (c) Only the momentum of the...
1.Linear momentum is always conserved [ ]when kinetic energy is conserved [ ]when total energy is conserved [ ]in the absence of internal forces [ ]in the absence of external forces 2. If two objects collide and there are no other forces acting on them, the momentum of each object will be independently conserved. [ ]True [ ]False 3.The momentum of an object is equal to the product of it mass and ______ [ ]Velocity [ ]Speed [ ]displacement [...
1. Two objects collide and stick together. Kinetic energy Select one: a. unable to determine with the information. b. Kinetic energy is conserved. c. Kinetic energy is not conserved. d. is conserved only if the environment is frictionless. 2. A ball of mass 0.10 kg is dropped from a height of 12 m. Its momentum when it strikes the ground is Select one: a. 2.4 kg·m/s. b. 1.8 kg·m/s. c. 1.5 kg·m/s. d. 4.8 kg·m/s. 3. If you double the...
a. 2m/s
b. 4m/s
c. 7m/s
d. 5m/s
e. 6 m/s
The only force acting on a 1.0-kg object moving along the x axis is shown. If the velocity Vx is +2.0 m/s at t = 0, what is the velocity at t = 4.0 s? F. (N) 16 8 0 +(s) -8
Theorem of conservation of momentum or momentum:
two line followers slide on a frictionless surface. The
first follower, with a mass of 24.0 gr, initially moves at 2.40 m /
s parallel to the x axis, which collides with the second follower,
whose mass is 12.0 gr, which is initially at rest, as shown in the
figure. After the collision, the first follower moves at 1.03 m / s
in a direction that forms an angle β = 31.0 with...
PLEASE DO ALL QUESTIONS WITH WORK! T = KINETIC ENERGY
2. In the lab a meganeutron (1 kg) approaches a megaalpha (4 kg) that's standing still and they elastically scatter (T conserved). The meganeutron is initially moving at 1000 m/s in the +x direction. Nonrelativistic. Use kg, m/s, kg m/s, J lab frame question:s a) what are the initial velocities in the lab frame? b) what are the initial total kinetic energy and momentum in the lab frame? converting to...
Block A with a mass of 9.0 kg moves along the x axis with a velocityof 6.0 m/s(in the positive x direction.) It suffers an ellastic collision with block B (15.0 kg), which initially has a velocity of -2.0 m/s(in the negative x direction). The blocks leave the collision along the x axis. what is the initial kinetic energy of the system? what is the initial momentum of the system? what is the velocity of the blocks after the collision?
A child pushes her friend (m = 25 kg) located at a radius r = 1.5 m on a merry-go-round (rmgr = 2.0 m, Imgr = 1000 kg*m2) with a constant force F = 90 N applied tangentially to the edge of the merry-go-round (i.e., the force is perpendicular to the radius). The merry-go-round resists spinning with a frictional force of f = 10 N acting at a radius of 1 m and a frictional torque τ = 15 N*m...
The only force acting on a 1.0-kg object moving along the x axis is shown. If the velocity Vx is +2.0 m/s at t = 0, what is the velocity at t = 4.0 s?
The only force acting on a 1.0-kg object moving along the x axis is shown. If the velocity Vx is +2.0 m/s at t= 0, what is the velocity at t = 4.0 s? F. (N) 16 8 0 +(s) 21-3.1.4 -8 +6.0 m/s +5.0 m/s +2.0 m/s +4.0 m/s +7.0 m/s