![Cara Can 1 d of each can 25 miles/hom Velocity Relative velocity voel) = V1 --V2 0:-[v] 25-[125] opposite direction il 25+25.](http://img.homeworklib.com/questions/9334e060-046b-11eb-9dcf-3bf2e0a7125e.png?x-oss-process=image/resize,w_560)
Two cars are about to head into each other for an experiment and they both move...
physics-- two cars with the mass of 300 kg (each) move towards eachother, collide head on and get joined together. before the collision: car 1 is traveling at 41 m/s and car 2 is traveling at 65 m/s. what is their speed immediately after the collision?
Two masses, one twice as massive as the other, move towards each other. For both objects to come to rest after they collide inelasticaly, what must the velocity of the smaller object be relative to the velocity of the larger object? Explain your reasoning.
QUESTION 9 The two freight cars shown move towards each other in a railroad yard. Car A has a mass MA = 2,853 kg and travels towards the right with a velocity VA = 1.98m/s. Car B has a mass MB = 1,963 kg and travels towards the left with a velocity VB = 1.54 m/s. What is the velocity of the joined freight cars if they couple together when they collide ? (Include units) VA MAA Ve Me
Two cars moving in the opposite direction have a head-on collision, in which both come to rest. Calculate the average force exerted on car A during this collision. Given: Masses: Car A = 1000 kg Car B = 1200 kg Speeds: Car A = 30.0 mile per hour Car B = 25.0 miles per hour Time of collision = 0.150 s.
As two cars move toward each other, the speedometer of one car reads 57.9 km/h while the speedometer of the other car reads 71.0 km/h. Assume that the speed of light is 88.4 km/h. (a) What is the speed of one car as measured by the driver of the other? (b) What does the classical velocity-addition equation give for the speed of one car relative to the other?
Two cars on a narrow road hit each other head on. The result of the collision is that the two cars get stuck to each other, the engine block of each car drops and their fronts get compressed. If the cars had a speed of 40 mph each, answer the following questions a. Is this an elastic or inelastic collision? Why? b. How much energy is taken up by the compression of the fronts of the cars (assume that the...
Two cars on a narrow road hit each other head on. The result of the collision is that the two cars get stuck to each other, the engine block of each car drops and their fronts get compressed. If the cars had a speed of 40 mph each, answer the following questions a. Is this an elastic or inelastic collision? Why? b. How much energy is taken up by the compression of the fronts of the cars (assume that the...
91: (12.5 points) Two cars of the same mass run head-on into each other at C. After the collision, the car skid with their brakes locked and come to a stop in the positions shown in the lower part of the figure. Knowing that the speed of the car A just before the impact was 8 km/hr and that the coefficient of kinetic friction between the pavement and the tires of both cars is 0.30, determine (a) the speed of...
Part III: Solve the following problems Two skaters gliding on ice run into each other head-on. If the two skaters hold onto each other and continue to move as a unit after the collision, what will be their resultant velocity? Skater A has a velocity of 5 m/s and a mass of 65 kg. Skater B has a velocity of 6 m/s and a mass of 60 kg.
The experiment is about elastic collisions. It is two cars and one of them is on a ramp and the other is down the ramp. The top car (A) will be pushed to collide with the bottom car (B). Regarding the experiment described: Suppose car A starts from a height of 5 cm above the flat glass. Car A has a mass of 100 grams and car B has a mass of 150 grams. 1) How fast will car A...