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OLPHYS1 8.6.050. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER Two cars collide at an icy Intersection...
Two cars collide at an icy intersection and stick together afterward. The first car has a...
Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1200 kg and was approaching at 6.00 m/s due south. The second car has a mass of 800 kg and was approaching at 21.0 m/s due west. (a) Calculate the final velocity of the cars. (Note that since both cars have an initial velocity, you cannot use the equations for conservation of momentum along the x-axis and y-axis; instead, you must look...
Two cars collide at an icy intersection and stick together afterward. The first car has a...
Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1250 kg and was approaching at 6.00 m/s due south. The second car has a mass of 900 kg and was approaching at 17.0 m/s due west. (a) Calculate the final velocity of the cars. (Note that since both cars have an initial velocity, you cannot use the equations for conservation of momentum along the x-axis and y-axis; instead, you must look...
Two cars collide at an icy intersection and stick together afterward. The first car has a...
Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1200 kg and is approaching at 8.00m/s due south. The second car has a mass of 850 kg and is approaching at 17.0m/s due west. (a) Calculate the final velocity (magnitude and direction) of the cars. (b) How much kinetic energy is lost in the collision? - Please provide a detailed explanation of the solution process.
(17%) Problem 6: Two cars collide at an icy intersection and stick together afterward. The first...
(17%) Problem 6: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1350 kg and is approaching at 6.5 m/s due south. The second car has a mass of 650 kg and is approaching at 19.5 m/s due west. 33% Part (a) Calculate the magnitude of the final velocity, in meters per second, of the cars. Grade Summary Deductions Potential 100 ( HOME sin() cos() tan() cotan() asin() acos atan acotan)...
TwoAtars colide at an icy intersection and stick together afterward. The first car has a mass...
TwoAtars colide at an icy intersection and stick together afterward. The first car has a mass of 1250 kg and was approaching at 7.00 m/s due south. The second car has a mass of 750 kg and was appaching at 22.0 s due west (a) Calculate the fnal velocity tmagnitude in m/s and drection in degrees counterciockwise fron the west) of the cars (Note that since both cars have an initial velocity, you cannat use the equations for canservation of...
Hint 1 Two cars approach an extremely icy four-way perpendicular intersection. Car A travels northward at...
Hint 1 Two cars approach an extremely icy four-way perpendicular intersection. Car A travels northward at 33 m/s and car B is traveling eastward. They collide and stick together, traveling at 380 north of east. What was the initial velocity of car B? You may assume that the cars have the same mass. Round your answer to one decimal place. m/s VB
Two cars collide at an intersection. Car A, with a mass of 2000 kg , is...
Two cars collide at an intersection. Car A, with a mass of 2000 kg , is going from west to east, while car B, of mass 1400 kg , is going from north to south at 12.0 m/s . As a result of this collision, the two cars become enmeshed and move as one afterward. In your role as an expert witness, you inspect the scene and determine that, after the collision, the enmeshed cars moved at an angle of...
Question 5: The two cars in Figure 5 collide at right angles in the intersection of...
Question 5: The two cars in Figure 5 collide at right angles in the intersection of two icy roads. Car A has a mass of 1200 kg and car B has a mass of 1600 kg. The cars become entangled and move off together with a common velocity in the direction indicated. If car A was travelling at 50 km/h at the moment of impact, compute the corresponding velocity of car B just before impact Ean 30° t ㄧㄧㄨ A-50...
Two cars are approaching a perpendicular intersection without a stop sign. Car 1 has a mass...
Two cars are approaching a perpendicular intersection without a stop sign. Car 1 has a mass mi =700kg and is heading north at v1 =15m/s. Car 2 has mass m2 =600kg and is heading west at an unknown speed V2. The two cars collide at the intersection and stick together as a result of the collision. The police report stated that after the collision, the two cars moved together in a direction 40° west of north and stopped after sliding...
Two cars collide at an intersection. Car A, with a mass of 2000 kg
Two cars collide at an intersection. Car A, with a mass of 2000 kg, is going from west to east, while car of mass 1500 kg, is going from north to south at 15 m/s. As a result, the two cars become enmeshed and move as one. As an expert witness, you inspect the scene and determine that, after the collision, the enmeshed cars moved at an angle of 67° south of east from the point of impact. How fast...
Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1200 kg and is approaching at 8.00m/s due south. The second car has a mass of 850 kg and is approaching at 17.0m/s due west. (a) Calculate the final velocity (magnitude and direction) of the cars. (b) How much kinetic energy is lost in the collision? - Please provide a detailed explanation of the solution process.
(17%) Problem 6: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1350 kg and is approaching at 6.5 m/s due south. The second car has a mass of 650 kg and is approaching at 19.5 m/s due west. 33% Part (a) Calculate the magnitude of the final velocity, in meters per second, of the cars. Grade Summary Deductions Potential 100 ( HOME sin() cos() tan() cotan() asin() acos atan acotan)...
TwoAtars colide at an icy intersection and stick together afterward. The first car has a mass of 1250 kg and was approaching at 7.00 m/s due south. The second car has a mass of 750 kg and was appaching at 22.0 s due west (a) Calculate the fnal velocity tmagnitude in m/s and drection in degrees counterciockwise fron the west) of the cars (Note that since both cars have an initial velocity, you cannat use the equations for canservation of...
Hint 1 Two cars approach an extremely icy four-way perpendicular intersection. Car A travels northward at 33 m/s and car B is traveling eastward. They collide and stick together, traveling at 380 north of east. What was the initial velocity of car B? You may assume that the cars have the same mass. Round your answer to one decimal place. m/s VB
Question 5: The two cars in Figure 5 collide at right angles in the intersection of two icy roads. Car A has a mass of 1200 kg and car B has a mass of 1600 kg. The cars become entangled and move off together with a common velocity in the direction indicated. If car A was travelling at 50 km/h at the moment of impact, compute the corresponding velocity of car B just before impact Ean 30° t ㄧㄧㄨ A-50...
Two cars are approaching a perpendicular intersection without a stop sign. Car 1 has a mass mi =700kg and is heading north at v1 =15m/s. Car 2 has mass m2 =600kg and is heading west at an unknown speed V2. The two cars collide at the intersection and stick together as a result of the collision. The police report stated that after the collision, the two cars moved together in a direction 40° west of north and stopped after sliding...
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