One lump of clay traveling at 35 m s overtakes a second lump traveling at 13.0...

One lump of clay traveling at 35 m/s overtakes a second lump traveling at 13.0 m/s....

One lump of clay traveling at 35 m/s overtakes a second lump traveling at 13.0 m/s. After collision, they are stuck together. What is their common velocity? (a)27.7 s , (b)35.6 s , (c)40.1 s , (d)56.7 s .

1. A o.5 kg stone moving at 4m/s overtakes a 4kg lump of clay moving at...

1. A o.5 kg stone moving at 4m/s overtakes a 4kg lump of clay moving at 1m/s. The stone becomes embedded in the clay. A) What is the speed of the composite bodyafter the collision? B) How much kinetic energy was lost? 2. Three balls are thrown simultaneously at the same speed from a roof. Ball A is thrown vertically upward, ball B is thrown horizontally, ball C is thrown vertically downward. A) Do the balls reach the ground at...

A 1-kg clay block collides with 3-kg clay block at a 90° angle with each other....

A 1-kg clay block collides with 3-kg clay block at a 90° angle with each other. After the collision, they become a 4-kg lump of clay. Assuming that each had an initial speed of 11 m/s prior to the collision, and ignoring friction with the surface they are traveling on, what is the magnitude and direction of the final velocity vector for the 4-kg lump of clay?

one ball of clay weighing 8kg is being thrown at 15mph towards another ball of clay...

one ball of clay weighing 8kg is being thrown at 15mph towards another ball of clay that weights 30kg that is also moving at 10mph. Now they are stuck together, a) Calculate the final velocity of the two meteors. b) Calculate the difference in the kinetic energy before and after the collision. c) Where does that energy go?

A 40.0 g ball of clay traveling east at 9.00 m/s collides and sticks together with...

A 40.0 g ball of clay traveling east at 9.00 m/s collides and sticks together with a 20.0 g ball of clay traveling north at 9.00 m/s . What is the speed of the resulting ball of clay? What is the direction of the resulting ball of clay?

a car (m1=2000kg) is traveling east with a velocity of 20i m/s. this car collieds with...

a car (m1=2000kg) is traveling east with a velocity of 20i m/s. this car collieds with a second car (m2=1500kg) that is traveling north with a velocity 20j m/s. these 2 cars tangle together when they collide. what was the total kinetic energy before the collision? what is the magnitude of the momentum of the 2 cars (as 1 system)? what is the speed of the combined mass just after the collision? what is the direction traveled in degrees?

Consider the collision of a 1500-kg car traveling east at 20.0 m/s (44.7 mph) with a...

Consider the collision of a 1500-kg car traveling east at 20.0 m/s (44.7 mph) with a 2000-kg truck traveling north at 25 m/s (55.9 mph). The cars lock together in such a way as to prevent them from separating or rotating significantly. One second before the collision, the car is located at position (x,y) = (-20,0) m and the truck is located at position (x,y) = (0,-25) m. Part a) Calculate the x-coordinate of the center of mass of the...

Two 200 kg cars approach an intersection. One car is traveling east at 18 m/s. The...

Two 200 kg cars approach an intersection. One car is traveling east at 18 m/s. The second car is traveling north at 24 m/s. They both collide and violently stick together. Immediately after the collision they are moving

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with...

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with car B of mass 1,596 kg which is traveling at 14.6 m/s at 71.4 degrees N of W. The two cars stick together after the collision. What is the magnitude of the final velocity of the cars?

A 23 g ball of clay traveling east at 4.0 m/s collides with a 40 g...

A 23 g ball of clay traveling east at 4.0 m/s collides with a 40 g ball of clay traveling north at 2.3 m/s . a) What is the movement direction of the resulting 63 g blob of clay? b)What is the speed of the resulting 63 g blob of clay?