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A 6.75 kg bowling ball moving at 9.85 m/s collides witha .825 kg bowling pin which is scattered at an angle of theta=20.5 degrees from the initial direction of the bowling ball, witha speed of 10.4 m/s A) Calculate the direction in degrees of the final velocity of the bowling ball. This angle should be measured in the same way that theta is B)Calculate the magnitude of the final velocity in meters per second of the bowling ball.
Problem 10: A 5.5-kg bowling ball moving at 9.4 m/s collides with a 0.875-kg bowling pin, which is scattered at an angle of θ = 24° from the initial direction of the bowling ball, with a speed of 10.4 m/s. Part (a) Calculate the direction, in degrees, of the final velocity of the bowling ball. This angle should be measured in the same way that θ is. Numeric : A numeric value is expected and not an expression. θb =...
A 7.05-kg bowling ball moving at 10.0 m/s collides with a 1.60-kg bowling pin, scattering it with a speed of 8.00 m/s and at an angle of 34.5° with respect to the initial direction of the bowling ball. Calculate the final velocity (magnitude and direction) of the bowling ball?
A 5.75-kg bowling ball moving at 9.25 m/s collides with a 0.925-kg bowling pin, which is scattered at an angle of θ = 23° from the initial direction of the bowling ball, with a speed of 11.1 m/s. (a) Calculate the direction, in degrees, of the final velocity of the bowling ball. This angle should be measured in the same way that θ is. (b) Calculate the magnitude of the final velocity, in meters per second, of the bowling ball.
A 6.25-kg bowling ball moving at 9.4 m/s collides with a 0.875-kg bowling pin, which is scattered at an angle of =83.5 degrees from the initial direction of the bowling ball, with a speed of 17.5 m/s. (Part A) Calculate the direction, in degrees, of the final velocity of the bowling ball. This angle should be measured in the same way that is. (Part B) Calculate the magnitude of the final velocity, in meters per second, of the bowling ball.
A 6.00 kg bowling ball moving at 10.0 m/s collides with a 1.60 kg bowling pin, scattering it with a speed of 8.00 m/s and at an angle of 38.5 with respect to the initial direction of the bowling ball (*) Calculate the final velocity (magnitude in mys and direction in degrees counterclockwise from the original direction of the bowling ball magnitude m/s direction counterclockwise from the original direction of the bowing ball (b) Ignoring rotation, what was the original...
A6.65 kg bowling bal moving at 10.0 m/ s colides with a 1.60 kg bowling pin, scattering It with a speed of 8.00 m/s and at an angle of 36.0% with respect to the initial direction of the (a) Calculate the final velocity (magnitude in m/s and direction in degrees velocity (magnitude in m/s and direction in degrees counterclockwise from the original direction) of the bowling ball magnitude m/s direction counterdlockwise from the original direction of the bowling ball (b)...
A(n) 5 kg object moving with a speed of 6.8 m/s collides with a(n) 19 kg object moving with a velocity of 9.1 m/s in a direction 18 degree from the initial direction of motion of the 5 kg object. What is the speed of the two objects after the collision if they remain stuck together? Answer in units of m/s. What is the change in direction experienced by the lighter of the two objects? Answer in units of degree.
5. A 0.06 kg tennis ball, moving with a speed of 5.0 m/s, collides a 0.09 kg ball initially moving in the same direction at a speed of 3.0 m/s. Assuming an elastic collision, determine the velocities of balls after the collision.
A 6 kg bowling ball rolling at 5 m/s strikes a stationary 4 kg bowling ball. If ball #1 is moving forward at 2 m/s after the collision, what is the speed and direction of ball #2? What is the impulse of the system? If the collision last for .5 seconds, how much force is exerted?