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QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the...
QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the...
QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the mass , bearing the velocity VIP collides with the mass initially at rest. After the collision, m, and m, acquire the velocities, respectively, v and a) (15 p) Therefore, show these two equations: -M2 VI Vti V2r- m+ m2 dv2 2011 Vui b) (10 p) Suppose, a bus running at the velocity of 100 km h, hits a cow, on the highway. What would...
3 QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that...
3
QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity collides with the mass , initially at rest. After the collision, m, and acquire the velocities, respectively, and v 2 a) (15 p) Therefore, show these two equations: 20 VU Var Vui m+ m2 b) (10p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the highway. What would be the speed of...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m,...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity VIP collides with the mass ml, initially at rest. After the collision, and my acquire the velocities, respectively, vi and v2f. a) (15 p) Therefore, show these two equations: my - m2 2m Vir Vu V2r- VU my+m2 m+ m2 b) (10p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the highway. What would be...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m,...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity v collides with the V li mass m2, initially at rest. After the collision, m , and m, acquire the velocities, respectively, and v Vif v2f a) (15 p) Therefore, show these two equations: 2m Di mi-m2 mi+ m2 Vii 1 V2= mi+m2 b) (10 p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m1...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m1 bearing the velocity v1i, collides with the mass m2, initially at rest. After the collision, m1 and m2 acquire the velocities, respectively, v1f and v2f. a) Therefore, show these two equations: b) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the highway. What would be the speed of the bus after the collision. And, what would be the speed...
42% _ 1:07 PM D) If the collision is elastic, car 1 will never come to...
42% _ 1:07 PM D) If the collision is elastic, car 1 will never come to a stop after the collision E) If car 1 is much lighter than m2, and the collision is perfectly elastic, car 1 will continue heading to the right with nearly its original speed after the collision Answer: Subrmit All Answers 7.11pt A ball of mass 6.1 g with a speed of 21.3 m/s strikes a wall at an angle 11.0° and then rebounds with...
1 Elastic collision A bumper car of mass m1 = 300kg is initially moving to the...
1 Elastic collision A bumper car of mass m1 = 300kg is initially moving to the right at velocity V1, before = 8m/s and collides head-on with another bumper car of mass m2 = 200kg that is motionless, V2, before = 0. After the collision, the heavy bumper car is moving at a speed of v1,after = 1.6m/s. (a) (5 pts) Calculate the total kinetic energy before the collision (b) (5 pts) Calculate the kinetic energy of the heavy car...
A Two-Body Collision with a Spring A block of mass m,-1.9 kg initially moving to the...
A Two-Body Collision with a Spring A block of mass m,-1.9 kg initially moving to the right with a speed of 3.2 m/s on a frictionless, horizontal track collides with a spring attached to a second block of mass m2 - 3.9 kg initially moving to the left with a speed of 1.8 m/s as shown in figure (a). The spring constant is 505 N/m in A moving block collides with another moving block with a spring attached: (a) before...
A 3.0-kg object moving 8.0 m/s in the positive x direction has a one-dimensional elastic collision...
A 3.0-kg object moving 8.0 m/s in the positive x direction has a one-dimensional elastic collision with an object (mass = M) initially at rest. After the collision, the object of unknown mass has a velocity of 6.0 m/s in the positive x direction. What is M? a. 6.0 kg b.5.0 kg c. 4.2 kg d. 7.5 kg e. 8.0 kg
5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is...
5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is initially moving with a velocity v = 3.07 m/s while object 2 is at rest. What are the final velocities after the collision? Enter the final velocity of object 1 first. Correct, computer gets: 0.002+00 m/s, 3.07e+00 m/s 6. [1pt] If the objects have masses m = 2.37 kg and m2 = 4.94 kg, what are the final velocities of the objects after the...
QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the mass , bearing the velocity VIP collides with the mass initially at rest. After the collision, m, and m, acquire the velocities, respectively, v and a) (15 p) Therefore, show these two equations: -M2 VI Vti V2r- m+ m2 dv2 2011 Vui b) (10 p) Suppose, a bus running at the velocity of 100 km h, hits a cow, on the highway. What would...
3
QUESTION 3 In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity collides with the mass , initially at rest. After the collision, m, and acquire the velocities, respectively, and v 2 a) (15 p) Therefore, show these two equations: 20 VU Var Vui m+ m2 b) (10p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the highway. What would be the speed of...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity VIP collides with the mass ml, initially at rest. After the collision, and my acquire the velocities, respectively, vi and v2f. a) (15 p) Therefore, show these two equations: my - m2 2m Vir Vu V2r- VU my+m2 m+ m2 b) (10p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the highway. What would be...
In this question we handle a one dimensional elastic collision. Thus, suppose that the mass m, bearing the velocity v collides with the V li mass m2, initially at rest. After the collision, m , and m, acquire the velocities, respectively, and v Vif v2f a) (15 p) Therefore, show these two equations: 2m Di mi-m2 mi+ m2 Vii 1 V2= mi+m2 b) (10 p) Suppose, a bus running at the velocity of 100 km/h, hits a cow, on the...
42% _ 1:07 PM D) If the collision is elastic, car 1 will never come to a stop after the collision E) If car 1 is much lighter than m2, and the collision is perfectly elastic, car 1 will continue heading to the right with nearly its original speed after the collision Answer: Subrmit All Answers 7.11pt A ball of mass 6.1 g with a speed of 21.3 m/s strikes a wall at an angle 11.0° and then rebounds with...
1 Elastic collision A bumper car of mass m1 = 300kg is initially moving to the right at velocity V1, before = 8m/s and collides head-on with another bumper car of mass m2 = 200kg that is motionless, V2, before = 0. After the collision, the heavy bumper car is moving at a speed of v1,after = 1.6m/s. (a) (5 pts) Calculate the total kinetic energy before the collision (b) (5 pts) Calculate the kinetic energy of the heavy car...
A Two-Body Collision with a Spring A block of mass m,-1.9 kg initially moving to the right with a speed of 3.2 m/s on a frictionless, horizontal track collides with a spring attached to a second block of mass m2 - 3.9 kg initially moving to the left with a speed of 1.8 m/s as shown in figure (a). The spring constant is 505 N/m in A moving block collides with another moving block with a spring attached: (a) before...
A 3.0-kg object moving 8.0 m/s in the positive x direction has a one-dimensional elastic collision with an object (mass = M) initially at rest. After the collision, the object of unknown mass has a velocity of 6.0 m/s in the positive x direction. What is M? a. 6.0 kg b.5.0 kg c. 4.2 kg d. 7.5 kg e. 8.0 kg
5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is initially moving with a velocity v = 3.07 m/s while object 2 is at rest. What are the final velocities after the collision? Enter the final velocity of object 1 first. Correct, computer gets: 0.002+00 m/s, 3.07e+00 m/s 6. [1pt] If the objects have masses m = 2.37 kg and m2 = 4.94 kg, what are the final velocities of the objects after the...
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