Determine the resultant velocity for both a perfectly elastic and perfectly inelastic collision between bodies A...
Determine the resultant velocity for both a perfectly elastic and perfectly inelastic collision between bodies A and B.
You will need to use sine and cosine as needed as well as the equations for elastic and inelastic collisions.
Body A Body B
mass velocity mass velocity
100 10 90 -10
80 5 80 -8
10 -8 20 10
50 6 80 -5
90 -5 80 5
Homework Answers
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Determine the resultant velocity for both a perfectly elastic
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Contrast and compare elastic and inelastic collisions. Question 4 options: Both elastic and inelastic collisions have...
Contrast and compare elastic and inelastic collisions.
Question 4 options:
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elastic collisions bounce and inelastic collisions stick, and
kinetic energy is conserved in inelastic collisions.
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different.
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outside forces. They are different...
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in a perfectly elastic collision what is the velocity of ball A if the original direction...
in a perfectly elastic collision what is the velocity of ball A if the original direction of ball A (m=20 kg) had a velocity of +3 m/s and ball B (m=30 kg) had an original velocity of -5 m/s?
1) Why is there a different equation for elastic vs inelastic collisions? Are they really different?...
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A 2.0-g particle moving at 7.0 m/s makes a perfectly elastic head-on collision with a resting...
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Contrast and compare elastic and inelastic collisions.
Question 4 options:
Both elastic and inelastic collisions have conservation of
momentum if there are no outside forces. They are different in that
elastic collisions bounce and inelastic collisions stick, and
kinetic energy is conserved in inelastic collisions.
They are basically the same thing, except the units are
different.
Elastic collisions do not have conservation of momentum and
inelastic collisions have conservation of momentum if there are no
outside forces. They are different...
5. [1pt] Consider a perfectly elastic collision between two objects of equal mass. Object 1 is initially moving with a velocity v = 3.07 m/s while object 2 is at rest. What are the final velocities after the collision? Enter the final velocity of object 1 first. Correct, computer gets: 0.002+00 m/s, 3.07e+00 m/s 6. [1pt] If the objects have masses m = 2.37 kg and m2 = 4.94 kg, what are the final velocities of the objects after the...
1) Why is there a different equation for elastic vs inelastic collisions? Are they really different? 5) If the first car does not go through either photogate after collision, what will its velocity essentially be? The conservation of momentum is a fundamental law in classical mechanics. It states that the total momentum of a system at the initial condition and ending conditions must be equivalent or p. - P. This can be modeled by studying the effect of objects in...
i need help with these questions about physics.
Elastic Collision Question 8 A 2 kg ball initially at rest rolls down a 30-degree inclined plane from a height of 4 meters (assume kinetic and rolling friction are negligible). A 2 kg box initially at rest slides down a 30-degree directionless inclined plane from a height of 4 meters. How do the velocities of the ball and the box compare when they both reach the bottom of their respective inclined planes?...
Coefficient of Restitution = 0 Objectives: Partially elastic collisions are defined by the coefficient of restitution between the two objects. In this experiment you will a. Propose a procedure to measure the coefficient of restitution b. Determine the coefficient of restitution for a racquet ball c. Determine whether the coefficient of restitution depends on velocity Introduction An elastic collision is one in which mechanical energy is conserved. A perfectly inelastic collision is one in which some of the mechanical energy...
EXAMPLE 6.8 Collision at an Intersection GOAL Analyze a two-dimensional inelastic collision. 25.0 m/s +20,0 m/s A top view of a perfectly inelastic collision between a car and a van. PROBLEM A car with mass 1.50 x 103 kg traveling east at a spegd of 25.0 m/s collides at an intersection with a 2.50 x 10 kg van traveling north at a speed of 20.0 m/s, as shown in the figure. Find the magnitude and direction of the velocity of...
A 2.0-g particle moving at 7.0
m/s makes a perfectly elastic head-on collision with a resting
1.0-g object. (a) Find the speed of each particle after the
collision.
A 2.0-g particle moving at 7.0 m/s makes a perfectly elastic head-on collision with a resting 1.0-g object. (a) Find the speed of each particle after the collision. 2.0 g particle 2.33 m/s 1.0 g particle 9.33 m/s (b) Find the speed of each particle after the collision if the stationary particle...
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