A body of mass 5 kg makes an elastic collision with another body at rest and continues to move in the original direction after collision with a velocity equal 1 to th of its original velocity. Then the mass of the second body is :
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A: part(a) solution: concept:
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Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
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A: We know that the two cars collide at an icy intersection and stick together afterward, it means the…
Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
A: mass of car 1 , m1 = 1500 kg speed of 1 , u1 = - 9 m/s j^ mass of car 2 , m2 = 700 kg velocity of 2…
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A: To solve for the final velocities of the balls, we can use the conservation of momentum and the…
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A: (a) conservation of momentum in the West-direction
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A: Solution
Q: a car with a mass of 1300 kg is westbound at 45km/h. It collides at an intersection with a…
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Q: A block of mass 1.86 kg is placed on a frictionless floor and initially pushed northward, whereupon…
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Q: A body of mass 4.0 kg makes an elastic collision with another body at rest and continues to move in…
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Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
A: m1=1100 kgm2=750 kkgv1=4.0 m/s (due south)v2=20.0 m/s (due west)
Q: A block of mass 1.64 kg is placed on a frictionless floor and initially pushed northward, whereupon…
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A: The given data are: m1=8000 kgm2=82×100 kgu1=10 m/su2=-9 m/s Here, u1 denotes the velocity of the…
Q: A block of mass 1.14 kg is placed on a frictionless floor and initially pushed northward, whereupon…
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Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
A: Solution:According to the conservation of momentum we have:The momentum in west direction to be:m1v1…
Q: Consider an elastic collision in one dimension that involves objects of mass m1=6.8 kg and m2=10.4…
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Q: Two cars collide at an intersection on a horizontal road. One car, with a mass of 1.37 × 10° kg, is…
A: Given data: Mass of the car 1, m1 = 1.37×103kg=1370 kg The initial velocity of car 1, u1 =8.12 m/s…
Q: Two cars approach an ice-covered intersection. One car, of mass 1.17 103 kg, is initially traveling…
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Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
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Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
A: Let x axis represents the west direction and y axis represents the south direction. According to law…
Q: Two cars collide at an icy intersection and stick together afterward. The first car has a mass of…
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Q: A cart of mass 33 is moving at a velocity of 16 in the positive directions when it collides with a…
A: m1=33 , u1=16m2=13, u2=-6.8(since in opposite direction) **Since units are not given so I have not…
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- Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1750 kg and was approaching at 5.00 m/s due south. The second car has a mass of 900 kg and was approaching at 16.0 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 for other simplifying aspects..)Magnitude ..................................m/s Direction ..............................° (counterclockwise from west is positive)(b) How much kinetic energy is lost in the collision? (This energy goes into deformation of the cars.) ..............................JA block of mass 1.73 kg is placed on a frictionless floor and initially pushed northward, whereupon it begins sliding with a constant speed of 5.57 m/s. It eventually collides with a second, stationary block, of mass 3.05 kg, head-on, and rebounds back to the south. The collision is 100% elastic. What will be the speeds of the 1.73-kg and 3.05-kg blocks, respectively, after this collision? 1 4.03 m/s and 1.54 m/s 2 2.21 m/s and 2.79 m/s 3 0.62 m/s and 2.17 m/s 4 1.54 m/s and 4.03 m/sA car of mass m_auto = 1.20x10^3 kg travels west-east at a speed of 50.0 km/h, while a wagon of mass m_ wagon = 2.80x10^3 kg travels at a speed of 40.0 km/h in a south-north direction; vehicles collide at an intersection (Point A). From the above and assuming that the crash that occurred is considered a perfectly inelastic collision, determine the magnitude and direction of the velocity that will occur after the collision.
- A block with mass m 1 =1 kg is released from rest on a frictionless track at a distance h1=2.5 m above the top of a table . it then collides elasticly with a block having same mass m2=1Kg that is at rest on the table. (a) What is the velocity of mass m1 just before collision? (b) What is the velocity of mass 2 just after collision?A block of mass 1.15 kg is placed on a frictionless floor and initially pushed northward, whereupon it begins sliding with a constant speed of 3.78 m/s. It eventually collides with a second, stationary block, of mass 4.98 kg, head-on, and rebounds back to the south. The collision is 100% elastic. What will be the speeds of the 1.15-kg and 4.98-kg blocks, respectively, after this collision? 1.87 m/s and 1.89 m/s 1.89 m/s and 2.13 m/s 2.36 m/s and 1.42 m/s 1.42 m/s and 2.36 m/sTwo cars collide at an icy intersection and stick together afterward. The first car has a mass of 1650 kg and was approaching at 9.00 m/s due south. The second car has a mass of 750 kg and was approaching at 15.0 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 for other simplifying aspects..)Magnitude m/sDirection ° (counterclockwise from west is positive)(b) How much kinetic energy is lost in the collision? (This energy goes into deformation of the cars.) J
- (a) A car traveling due east strikes a car traveling due north at an intersection, and the two move together as a unit. A property owner on the southeast corner of the intersection claims that his fence was torn down in the collision. Should he be awarded damages by the insurance company? Defend your answer. (b) Let the eastward-moving car have a mass of 1 300 kg and a speed of 30.0 km/h and the northward-moving car a mass of 1 100 kg and a speed of 20.0 km/h. Find the velocity after the collision. Are the results consistent with your answer to part (a)?A block of mass 1.57 kg is placed on a frictionless floor and initially pushed northward, where upon it begins sliding with a constant speed of 5.16 m/s. It eventually collides with a second, stationary block, of mass 3.01 kg, head-on, and rebounds back to the south. The collision is 100% elastic. What will be the speeds of the 1.57-kg and 3.01-kg blocks, respectively, after this collision? 1.62 m/s and 3.54 m/s 3.54 m/s and 1.62 m/s 2.06 m/s and 2.58 m/s 0.65 m/s and 2.10 m/sTwo cars collide at an icy intersection and stick together afterward. The first car has a mass of 1800 kg and was approaching at 5.00 m/s due south. The second car has a mass of 700 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 for other simplifying aspects..)Magnitude m/sDirection ° (counterclockwise from west is positive)(b) How much kinetic energy is lost in the collision? (This energy goes into deformation of the cars.) J
- In the railroad freight yard, an empty freight car of mass m rolls along a straight level track at 1.20 m/s and collides with an initially stationary, fully loaded boxcar of mass 5.80m. The two cars couple together on collision. (a)What is the speed of the two cars after the collision? ___m/s (b)Suppose instead that the two cars are at rest after the collision. With what speed was the loaded boxcar moving before the collision if the empty one was moving at 1.20 m/s? ___m/sA block of mass m moving due east at speed v collides with and sticks to a block of mass 2m that is moving at the same speed v but in a direction 45.0° north of east. Find the direction in which the two blocks move after the collision.Two cars collide at an icy intersection and stick together afterward. The first car has a mass of 1400 kg and was approaching at 9.00 m/s due south. The second car has a mass of 800 kg and was approaching at 22.0 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 for other simplifying aspects..)Magnitude ____________ m/sDirection ____________ ° (counterclockwise from west is positive)(b) How much kinetic energy is lost in the collision? (This energy goes into deformation of the cars.) _____________ J