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Problem 7- Vector Addition and Conservation of Linear Momentum The initial momentum vectors of two electrons...
1.Linear momentum is always conserved [ ]when kinetic energy is conserved [ ]when total energy is...
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 [...
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial...
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial and final momentum for each collision. 2. Complete calculations totals in results table. Equations: p mv and2p Ep A. Elastic Collision between equal mass Momentum Final (kg"m/s) Momentum Initial (kg"m/s) Initial Velocity Final Velocity (m/s) Collision 1 Mass (kg) (m/s) Mass 1 2.0 +1.0 -1.0 Mass 2 2.0 -1.0 1.0 B. Elastic Collision between unequal mass: 2 Initial Velocity (m/s) Final Velocity (m/s) Momentum...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg has an initial velocity of 10m/s at 30° S of E. A second puck of mass m, 5kg has a velocity of 5m/s at 45° W of N. They collide and stick together. 30° S he is the the Find the magnitude and direction after collision.
Problem C1: (Conservation of Momentum) Part C (LINEAR MOMENTUM A puck of mass m, = 3kg...
Problem C1: (Conservation of Momentum) Part C (LINEAR MOMENTUM A puck of mass m, = 3kg has an initial velocity of 10 m/s at 30 m2 = 5kg has a velocity of 5m/s at 45° W of N. They collide Om/s at 30° S of E. A second puck of mass They collide and stick together. V 30° Find the magnitude and direction after collision.
3. Two gliders are moving toward each other on a horizontal track. Glider A has a...
3. Two gliders are moving toward each other on a horizontal track. Glider A has a mass of 500 g and is moving with a velocity of 50 cm/s. Glider B has a mass of 200 g and is moving with a velocity of -50 cm/s. After a head-on collision, glider A moves with a velocity of 20 cm/s and glider B moves with a velocity of 25 cm/s. a. Calculate the total initial and final momenta of the two...
please help with question 4. EXPERIMENT4: THE LINEAR AIR TRACK The aims of this experiment are...
please help with question 4.
EXPERIMENT4: THE LINEAR AIR TRACK The aims of this experiment are to: 1)investigate momentum and energy conservation in coll 2. study the cooversion of energy for a body in free fall. There are two types of collisions, elastic and inelastic. In both types of collision momentum is between two bodies in one dimension. The velocity (and hemee the momentum) may be positive or ycorserved. A body of mass m moving with a velocity vi has...
Theorem of conservation of momentum or momentum: two line followers slide on a frictionless surface. The...
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...
Part 1:A 20.0 g ball of clay traveling east at 3.00 m/s collides with a 30.0...
Part 1:A 20.0 g ball of clay traveling east at 3.00 m/s collides with a 30.0 g ball of clay traveling north at 4.00 m/s. To find the total momentum of this system before the collision, we must determine the momentum of each piece of clay and then sum the two momenta vectorially. The 20.0 g piece has a momentum 0.06 kgm/s east, and the 30.0 g has a momentum 0.12 kgm/s north. What is the magnitude of the vector...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In...
OAL Combine the concepts of conservation of energy and conservation of momentum in inelastic collisions. In figure a, a bullet and a wooden block are shown in two configurations. In the first configuration, the block, labeled m2, hangs vertically from a ceiling. A bullet, labeled m1, approaches the block horizontally from the left. A rightward arrow points from the bullet and is labeled vector v1i. A rightward arrow, shorter than the first, points from the block and is labeled vector...
3.08 Conservation of Momentum Lab 1. Use the given collisions and data to calculate the initial and final momentum for each collision. 2. Complete calculations totals in results table. Equations: p mv and2p Ep A. Elastic Collision between equal mass Momentum Final (kg"m/s) Momentum Initial (kg"m/s) Initial Velocity Final Velocity (m/s) Collision 1 Mass (kg) (m/s) Mass 1 2.0 +1.0 -1.0 Mass 2 2.0 -1.0 1.0 B. Elastic Collision between unequal mass: 2 Initial Velocity (m/s) Final Velocity (m/s) Momentum...
Part C (LINEAR MOMENTUM) Problem CI: (Conservation of Momentum) A puck of mass m, = 3kg has an initial velocity of 10m/s at 30° S of E. A second puck of mass m, 5kg has a velocity of 5m/s at 45° W of N. They collide and stick together. 30° S he is the the Find the magnitude and direction after collision.
Problem C1: (Conservation of Momentum) Part C (LINEAR MOMENTUM A puck of mass m, = 3kg has an initial velocity of 10 m/s at 30 m2 = 5kg has a velocity of 5m/s at 45° W of N. They collide Om/s at 30° S of E. A second puck of mass They collide and stick together. V 30° Find the magnitude and direction after collision.
3. Two gliders are moving toward each other on a horizontal track. Glider A has a mass of 500 g and is moving with a velocity of 50 cm/s. Glider B has a mass of 200 g and is moving with a velocity of -50 cm/s. After a head-on collision, glider A moves with a velocity of 20 cm/s and glider B moves with a velocity of 25 cm/s. a. Calculate the total initial and final momenta of the two...
please help with question 4.
EXPERIMENT4: THE LINEAR AIR TRACK The aims of this experiment are to: 1)investigate momentum and energy conservation in coll 2. study the cooversion of energy for a body in free fall. There are two types of collisions, elastic and inelastic. In both types of collision momentum is between two bodies in one dimension. The velocity (and hemee the momentum) may be positive or ycorserved. A body of mass m moving with a velocity vi has...
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...
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