Billiard ball A of mass m_A = 0.120 kg moving with a speed v_A = 2.80...
Billiard ball A of mass mA = 0.125 kg moving with speed vA = 2.80 m/s strikes ball B, initially at rest, of mass mB = 0.140 kg . As a result of the collision, ball A is deflected off at an angle of θ′A = 30.0∘ with a speed v′A = 2.10 m/s, and ball B moves with a speed v′B at an angle of θ′B to original direction of motion of ball A. Part C Solve these equations...
Billiard ball A of mass mA = 0.119 kg moving with speed vA = 2.80 m/s strikes ball B, initially at rest, of mass mB = 0.141 kg . As a result of the collision, ball A is deflected off at an angle of θ′A = 30.0∘ with a speed v′A = 2.10 m/s, and ball B moves with a speed v′B at an angle of θ′B to original direction of motion of ball A. Solve these equations for the...
Billiard ball A of mass mA = 0.115 kg moving with speed vA = 2.60 m/s strikes ball B, initially at rest, of mass mB = 0.140 kg. As a result of the collision, ball A is deflected off at an angle of 32.0 ∘ with a speed vA1 = 2.35 m/s . a) Solve for the final speed, vB, of ball B. Do not assume the collision is elastic. b) Solve for the angle, θB, of ball B. Do...
Billiard ball A of mass mA = 0.130 kg moving with speed vA = 2.80 m/s strikes ball B, initially at rest, of mass mB = 0.140 kg . As a result of the collision, ball A is deflected off at an angle of 27.5 ∘ with a speed vA1 = 2.25 m/s . a.) Taking the x axis to be the original direction of motion of ball A, write down the equation expressing the conservation of momentum for the...
2. A billiard ball, of mass mA 0.400 kg moving with a speed of vA 1.80 m/s strikes a second ball, initially at rest, of mass me 0.500 kg. As a result of the collision, the first ball is deflected off at an angle of 30.0° with a speed v'a 1 . 10 m/s a) Taking the x-axis to be the original direction of motion of ball A, write down the equations expressing the conservation of mome in the x...
Billiard ball A of mass mA = 0.115 kg moving with speed vA = 2.80 m/s strikes ball B , initially at rest, of mass mB = 0.144 kg . As a result of the collision, ball A is deflected off at an angle of θ′A = 30.0∘ with a speed v′A = 2.10 m/s , and ball B moves with a speed v′B at an angle of θ′B to original direction of motion of ball A. Part A Taking...
Billiard ball A of mass mA= 0.105 kg moving with speed vA= 2.65 m/s strikes ball B, initially at rest, of mass mB= 0.150 kg . As a result of the collision, ball A is deflected off at an angle of 29.0 with a speed vA1= 2.15 m/s A) Taking the x axis to be the original direction of motion of ball A, write down the equation expressing the conservation of momentum for the components in the xx direction. Assume...
A billiard ball of mass = 300.0 g moving with an initial speed of 1.80 m/s strikes a second ball of mass mg 400.0 g initially at rest, As a result of the collision, the first ball is deflected off at an angle of 25.0 0 with a speed of 1.00 m/s. Do not assume this is a perfect collision, (a) Taking the x-axis to be the original direction of the motion of ball A, write down the equations of...
Problem 9.54 12 of 16 > Constants | Periodic Table Billiard ball A of mass mA 0.115 kg moving with speed vA 3.00 m/s strikes ball B, initially at rest, of mass m B 0.150 kg. As a result of the collision, ball A is deflected off at an angle of 28.0 ° with a speed A1 2.40 m/s Part A Taking the z axis to be the original direction of motion of ball A, write down the equation expressing...
A billiard ball with a mass of 0.15 kg is moving with a velocity of < 5, 0, 0 > m/s. It collides with a 2nd billiard ball of mass 0.20 kg initially moving at < -7, 0, 0 > m/s. After the collision, you observe the 2nd billiard ball moving at < 0.13, 0, 0 > m/s. a) What is the velocity of the 0.15 kg billiard ball after the collision? b) What is the vector change in momentum...