A truck traveling at 20 m/s east strikes a bug flying towards it at 4 m/s....

A truck with mass 3000 kg is driving at 20 m/s north. It collides with a...

A truck with mass 3000 kg is driving at 20 m/s north. It collides with a car of mass 1200 kg traveling east towards the truck at 30 m/s. How fast, and in what direction, will the two be traveling after the collision if it is perfectly inelastic? a. 16.7 m/s at 31 degrees north of east. b. 16.7 m/s at 59 degrees north of east. c. 36.1 m/s at 33.7 degrees north of east. d. 50 m/s Northeast.

A very, very massive object traveling at 20 m/s strikes a very light object, initially at...

A very, very massive object traveling at 20 m/s strikes a very light object, initially at rest and the light object moves off in the direction of travel of the heavy object.  If the collision is elastic, the speed of the lighter object is about:

2) A 654 kg SmartCar initially traveling at 7.40 m/s collides with a 987 kg VW...

2) A 654 kg SmartCar initially traveling at 7.40 m/s collides with a 987 kg VW Bug that is moving at -2.60 m/s. These velocities are measured in what we will call the “regular” frame: the frame of reference that is at rest with respect to the roadway. We can exclude external forces acting during the collision (momentum is conserved).Now treat this collision as being elastic. A) What is the total momentum of the system before the collision? B) What...

A car with a mass 1500kg traveling East 10m/s collides with a truck with a mass...

A car with a mass 1500kg traveling East 10m/s collides with a truck with a mass 2000kg traveling West at 12m/s. After the collision, the two are stuck together. A) Find the final speed. B) How much kinetic energy was lost?

A ball of mass 2 kg is traveling towards you at 15 m/s. You are at...

A ball of mass 2 kg is traveling towards you at 15 m/s. You are at rest and have a mass of 75 kg. Assuming you catch the ball, what is your final velocity? Assuming the ball bounces off you and travels in the opposite direction with a velocity of 12 m/s, what is your velocity? A car of 1200 kg travels east at 24 m/s while a truck of 2200 kg travels north at 19 m/s. They collide and...

Question1) A car moving North at 12 m/s strikes a stationary car of equal mass. The...

Question1) A car moving North at 12 m/s strikes a stationary car of equal mass. The first car moves off after the collision at an angle of 30° East of North with a speed of 8.0 m/s. a.   What is the velocity of the struck car just after the collision? b.   Show that the collision is inelastic. c.   Explain how dents, skid marks, etc. show that kinetic energy has been lost. d.   If the collision were perfectly elastic, what would...

A north bound mid-size SUV (M = 2000kg) strikes an east bound small pickup (m =...

A north bound mid-size SUV (M = 2000kg) strikes an east bound small pickup (m = 1800 kg). The SUV is traveling 22 m/s, the pickup is traveling 18 m/s, and the two vehicles stick together after the collision. Furthermore, the coefficient of friction between the tires and the road after the collision is 0.4. What displacement will the vehicles have from the impact point? How much energy was lost in the collision?

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...

a 1500 kg car traveling at 40 m/s collides elastically with 3000 kg truck traveling 30...

a 1500 kg car traveling at 40 m/s collides elastically with 3000 kg truck traveling 30 m/s. if the speed of the car after the collision is 26.66 m/s, then the speed of the truck after the collision is how many m/s?

A bowling ball with a mass of 4.0 kilograms is traveling at 8.0 m/s strikes a...

A bowling ball with a mass of 4.0 kilograms is traveling at 8.0 m/s strikes a larger bowling ball with a mass 6.0 kilograms which is at rest. After the collision, the smaller ball moves at an unknown velocity 30.0 degrees above the x-axis and the larger ball moves at an unknown velocity 13.0 degrees below the x-axis. What are the final velocities of each ball?