A. A truck (mass 3274 kg) and a car (1559 kg) collide. The truck moves at a speed of 53 m/s towards the stationary car. Assuming this is an elastic collision, how fast will the bruck be going after the collision? Answer as a whole number.
B.A cylinder initially traveling at 3 m/s rolls up a hill inclined at 48 degrees. What is its vertical height when it comes to rest? Give your answer to one decimal place.
C. A satellite rotates starting from rest for 2.9 seconds with an angular acceleration of 4.5 rad/s2. How many revolutions has the satellite undergone in this time interval? Your answer should have one decimal place.
A. A truck (mass 3274 kg) and a car (1559 kg) collide. The truck moves at...
A car of mass 1200.0 kg and a truck of mass 9000.0 kg collide along a straight road. The initial speed of the car is 25.0 m/s and the initial speed of the truck is 20.0 m/s. If the speed of the car after the collision is 18.0 m/s, what is the speed of the truck after the collision? can you explain this as you solve.
A 1425 kg truck driving at 13.0 m/s collides elastically with a stationary 1175 kg car. If the car is traveling 14.25 m/s just after the collision, what is the velocity of the truck immediately after the collision? Assume that this is a perfectly elastic collision. Round your answer to the hundredths place. Final velocity of the truck = m/s
A car of mass 1500 kg and a small track of mass 2300 kg collide at right angles at an icy intersection. The car was traveling east at 15 m/s and the truck was traveling north at 20 m/s when the collision took place. What is the speed of the combined wreck, assuming a completely inelastic collision.
7. A 3 000 kg truck runs into the rear of a 1 000 kg car that was stationary. The truck and car are locker together after the collision and move with speed 9 m/s. What was the speed of the truck before the collision? 8. In the previous question determine if the collision was an elastic collision.
A 2,900-kg truck runs into the rear of a 1,000-kg car that was stationary. The truck and car are locked together after the collision and move with speed 2 m/s. What was the speed of the truck before the collision?
A 7,500-kg truck runs into the rear of a 1,000-kg car that was stationary. The truck and car are locked together after the collision and move with speed 7 m/s. Compute how much kinetic energy was "lost" in this inelastic collision.
A car (m = 1250 kg) is sitting at rest when it is hit by a truck (m = 2500 kg). After the collision, the car and truck stick together and move off with a combined speed of 6.50 m/s. How fast was the truck going when it hit the car? 9.75 m/s 19.5 m/s 6.50 m/s 13.0 m/s A long uniform rod is mounted so that it rotates around an axis through one of its ends The rod has...
5. A runaway truck with a mass of 2100 kg strikes a car of mass 1350 kg, which was at rest before the collision. The car’s wheels are locked during the entire event, but the truck has no brakes, i.e., it is rolling freely on the road. The two vehicles move forward together, and the car’s tires leave skid marks for a distance of 1.5 m. Suppose that the coefficient of kinetic friction between the car’s tires and the road...
A 831 kg car stopped at an intersection is rear-ended by a 1830 kg truck moving with a speed of 14.5 m/s. If the car was in neutral and its brakes were off, so that the collision is approximately elastic, find the final speed of both vehicles after the collision. speed of car in m/s speed of truck in m/s
A car of mass 2400 kg collides with a truck of mass 4600 kg, and just after the collision the car and truck slide along, stuck together, with no rotation. The car's velocity just before the collision was <38, 0, 0 m/s, and the truck's velocity just before the collision was C-19, 0, 26> m/s. (a) Your first task is to determine the velocity of the stuck-together car and truck just after the collision. What system and principle should you...