A Chevrolet (mC = 1800 kg) and a Ford (mF = 1500 kg) approach an intersection as shown below. The Chevrolet is initially traveling at 12.0 m/s due East. The Ford is initially traveling at 10.0 m/s due North. After the inelastic collision, the Chevrolet has a final velocity of 8.50 m/s at 51.00 North of East. Determine the final velocity of the Ford after the collision in Polar notation. That is, the angle should be measured relative to the positive-x axis.
Magnitude of Ford's final velocity =
Direction of Ford's final velocity = 0
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A car with mass 1500 kg traveling east at 25 m/s collides at an intersection with a 2500kg van traveling north at a speed of 20 m/s. Find the magnitude and direction of the velocity of the wreckage after the collision, assuming that the vehicles undergo a perfectly inelastic collision and assuming no friction.
A car with a mass of 980 kg is initially traveling east toward
an intersection with a speed of vc = 20.9 m/s and a 1500 kg pickup
is traveling north toward the same intersection. The car and truck
collide at the intersection and stick together. After the
collision, the wreckage (car and truck) moves off in a direction of
44.0° above the x-axis. Determine the initial speed of the truck
and the final speed of the wreckage in meters...
EXAMPLE 6.8 Collision at an Intersection GOAL Analyze a two-dimensional inelastic collision. 25.0 m/s +20,0 m/s A top view of a perfectly inelastic collision between a car and a van. PROBLEM A car with mass 1.50 x 103 kg traveling east at a spegd of 25.0 m/s collides at an intersection with a 2.50 x 10 kg van traveling north at a speed of 20.0 m/s, as shown in the figure. Find the magnitude and direction of the velocity of...
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.
Two cars approach an ice-covered intersection. One car, of mass 1.11*103 kg, is initially traveling north at 12.1 m/s. The other car, of mass 1.70*103 kg, is initially traveling east at 12.1 m/s. The cars reach the intersection at the same instant, collide, and move off coupled together. Find the velocity of the center of mass of the two-car system just after the collision. Magnitude= Directions = North of East
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a car of mass 1500 kg traveling northward at 16m/s collides in an intersection with a 1700 kg car traveling at 12 m/s in a direction 30 degrees north of east. (a) assuming that the two cars become stuck, find the velocity of the wreck immediately after the collision. (b) calculate the average force on a 100kg passenger in the first car. duration of collision: change in t=50 ms
Two cars approach an ice-covered intersection. One car, of mass 1.15*10^3 kg, is initially traveling north at 11.1 m/s. The other car, of mass 1.65*10^3 kg, is initially traveling east at 11.1 m/s. The cars reach the intersection at the same instant, collide, and move off coupled together. Find the velocity of the center of mass of the two-car system just after the collision.
if an inelastic collision of two carts on a frictionless track collides, what is the momentum of cart A and B, before and after the collision? cart A has a mass of .5025 kg and cart B has a mass of .5491 kg. carts A initial velocity is .5595 m/s then collides and sticks to cart B, which was initially at rest, with a final velocity of .1622 m/s.