1- Calculate the final velocities of two objects given the information. The collision is object 1...

Two objects make an elastic , one dimensional collision. Before the collision the 35 gram object...

Two objects make an elastic , one dimensional collision. Before the collision the 35 gram object was moving to the right at 14m/s, while the 55 gram object was moving to the left at 12m/s. Find the objects’ velocities after colliding.

Two objects collide in a totally inelastic collision. Just before the collision, the objects have the...

Two objects collide in a totally inelastic collision. Just before the collision, the objects have the following masses and velocities: M1 = 4.5 kg, v1 = 1.5 m/s @ 140o. M2 = 1.5 kg, v2 = 1 m/s @ 180o. a) Find the velocity of the object after the collision. b) How much kinetic energy was lost in the collision.

5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is...

5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is initially moving with a velocity v = 3.04 m/s while object 2 is at rest. What are the final velocities after the collision? Enter the final velocity of object 1 first. Answer 1 of 2: Answer 2 of 2: 6. [1pt] If the objects have masses m1 = 1.69 kg and m2 = 4.04 kg, what are the final velocities of the objects after...

1) The two objects ( M1=5kg V1=2m/s , M2=3kg V2=-2m/s) collide together after the collision. Find...

1) The two objects ( M1=5kg V1=2m/s , M2=3kg V2=-2m/s) collide together after the collision. Find the velocity of the two objects after the collision. find v1 final and v2 final

Two billiard balls of identical mass move towards each other and have an elastic collision. If...

Two billiard balls of identical mass move towards each other and have an elastic collision. If the velocities of the balls are + 20.0 cm/s and -15.0 cm/s, what is the velocity of each ball after the collision? Show all the steps. A. v1,f= - 15.0 cm/s; v2,f= + 20.0 cm/s B. v1,f= -10.0 cm/s; v2,f= + 20.0 cm/s C. v1,f= +20.0 cm/s; v2,f= + 15.0 cm/s D. v1,f= - 20.0 cm/s; v2,f= +15.0 cm/s

Two rubber objects undergo a collision that we will approximate as being elastic. The first object...

Two rubber objects undergo a collision that we will approximate as being elastic. The first object has mass 12.0 kg, and the second object has mass 12.0 kg. Before the collision, the first object is traveling at 4.00 m/s and the second object is traveling at -4.00 m/s (negative meaning in the opposite direction). What is the velocity of the second object, after the collision?

Two objects that are constrained to move in the xy-plane undergo a collision. Object 1 has...

Two objects that are constrained to move in the xy-plane undergo a collision. Object 1 has mass 2.3 kg and its initial momentum just before the collision has the x- and y-components 15.1 kg⋅m/s and -6.9 kg⋅m/s, respectively. Object 2 has mass 4.7 kg and the x- and y-components of its initial momentum are 3.5 kg⋅m/s and 6.5 kg⋅m/s. Immediately after the collision the x- and y-components of object 1’s final momentum are 13.8 kg⋅m/s and 4.3 kg⋅m/s. a Calculate...

First, an object 1 with mass m and an object 2 with mass 2 m are...

First, an object 1 with mass m and an object 2 with mass 2 m are moving on a straight line at velocities v1i=1.00 m/s and v2i= -2.00 m/s. Two objects collided inelastically, and the velocities of object 1 and object 2 changed to v1f and vf2, respectively. The velocity is positive in the right direction, and no external force is acting on these two objects. Find v1f and vf2 for cases (1) and (2) below, respectively. (1) When two...

Two objects moving in the positive x direction have a perfectly inelastic collision. The first object...

Two objects moving in the positive x direction have a perfectly inelastic collision. The first object has a mass of 12 kg and a velocity of 4 m/s. The second has a mass of 7 kg and a velocity of 1 m/s. (a) What is the velocity of the center of mass of the system? (b) What are the velocities of the masses in the center of mass frame? (I.e., imagine that you are moving with a velocity v cm....

1.Two objects collide and stick together. The collision [must be, may or may not be, cannot...

1.Two objects collide and stick together. The collision [must be, may or may not be, cannot be] elastic. 2.Two objects collide and do not stick together. The collision [must be, may or may not be, cannot be] elastic. 3.A moving object collides with an equal mass object initially at rest. The first object stops after the collision. The collision [must be, may or may not be, cannot be] elastic. 4. A moving object collides with another object of greater mass...