Based on conservation of linear momentum, if m1 = m2, Vo = 3.5 m/s, V1 =...

A man of mass m1 = 64.5 kg is skating at v1 = 7.60 m/s behind...

A man of mass m1 = 64.5 kg is skating at v1 = 7.60 m/s behind his wife of mass m2 = 53.0 kg, who is skating at v2 = 3.80 m/s. Instead of passing her, he inadvertently collides with her. He grabs her around the waist, and they maintain their balance. (a) Sketch the problem with before-and-after diagrams, representing the skaters as blocks. (b) Is the collision best described as elastic, inelastic, or perfectly inelastic? elastic inelastic perfectly inelastic...

Conservation of Momentum with a Head-On Collision in a single direction/dimension/axis (Fwd/Bckwd) m1 = 1 kg...

Conservation of Momentum with a Head-On Collision in a single direction/dimension/axis (Fwd/Bckwd) m1 = 1 kg m2 = 2 kg Initial: m1 is moving with vi1 [Fwd]] towards m2 which is at rest. Midst: m1 collides with m2, now both are in motion. Final: m1 moves with new velocity vf1 in the backward direction, m2 moves with new vf2 forwards. How does the law of conservation of momentum apply and what are the applicable formulas for the conservation of momentum...

A block moving with speed vo = 10 m/s and mass m1 = 6 kg collides...

A block moving with speed vo = 10 m/s and mass m1 = 6 kg collides with a block of mass m2 = 5 kg initially at rest. (Both slide on a frictionless surface at all times.) Now the two blocks collide with a third block initially at rest. What is the final momentum of the system? Question options: A) 30 kg-m/s B) 60 kg-m/s C) 190 kg-m/s D) 250 kg-m/s E) 310 kg-m/s

266) (H) Find the resultant of the two vectors. (M1=8.57; A1=58.7) = V1; (M2=3.94; A2=52.1) =...

266) (H) Find the resultant of the two vectors. (M1=8.57; A1=58.7) = V1; (M2=3.94; A2=52.1) = V2; (M3,A3)=V3=V1+V2 M=magnitude and A=angle in degrees. answers=M3 and A3 (deg) The resultant of two vectors is the same a the sum of them. There are 2 answers.

Two objects of masses m1=2 kg and m2=4 kg are moving with the same momentum of...

Two objects of masses m1=2 kg and m2=4 kg are moving with the same momentum of 20 kg m s-1. Calculate the kinatic energy (KE) for m1?

Concept - Conservation of Linear Momentum Question: a. The mass of car 1 is 275g. The...

Concept - Conservation of Linear Momentum Question: a. The mass of car 1 is 275g. The velocity prior to hitting another car is 1.1m/s. After colliding, the velocity of car 1 is 0.9 m/s. Find car 1's change in velocity (m/s). Find car 1's change of moment (momentum) (kgm/s). b. The mass of car 2 is 255g. The velocity prior to getting hit by car 1 is 0 m/s. After it has collided with car 1, what is the change...

A ball with mass of m=0.5 (Kg) has velocity of V1= 8 m/s and moves with...

A ball with mass of m=0.5 (Kg) has velocity of V1= 8 m/s and moves with the angle of 45 degrees with respect to vertical line. It hits the ground and bounce back with V2= 6 m/s with the same angle with respect to ground . What is the change in ball's momentum?

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

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s...

A particle of mass m1 = 1.32 kg with an initial velocity v1 = 4.56 m/s has a completely inelastic collision with a second particle of mass m2 = 3.68 kg with an initial velocity v2 = 3.06 m/s. What is the velocity of the combined particles immediately after the collision? (Express your answer in vector form.)

A block of mass m1 = 1.20 kg moving at v1 = 1.20 m/s undergoes a...

A block of mass m1 = 1.20 kg moving at v1 = 1.20 m/s undergoes a completely inelastic collision with a stationary block of mass m2 = 0.500 kg . The blocks then move, stuck together, at speed v2. After a short time, the two-block system collides inelastically with a third block, of mass m3 = 2.60 kg , which is initially at rest. The three blocks then move, stuck together, with speed v3. Assume that the blocks slide without...