with inelastic collisions, momentum is conserved, as well. However, the general statement P before =P after...

What graph could you make to show that momentum is conserved for inelastic collisions and Explain...

What graph could you make to show that momentum is conserved for inelastic collisions and Explain how you would use the slope of the graph to determine if momentum was conserved, increased, or decreased.

Elastic collisions: one at rest one moving, two colliding, both initially moving the same direction. Inelastic...

Elastic collisions: one at rest one moving, two colliding, both initially moving the same direction. Inelastic collisions: one at rest one moving, two colliding, both initially moving the same direction. Perfectly elastic collisions: one at rest one moving, two colliding, both initially moving the same direction. Was momentum conserved for all types of collisions you examined in this experiment? If not, explain the cause of losing or gaining momentum. Was total velocity conserved for all types of collisions you examined...

S1. For each of the following collisions indicate whether you think momentum will be conserved. Give...

S1. For each of the following collisions indicate whether you think momentum will be conserved. Give some justification for each. a) A cart with a spring on it collides with a brick. The spring compresses during the collision then “springs back”. The cart is going the same speed after the collision as it was before the collision, but in the opposite direction. The brick does not move during the collision. b) A train car is rolling slowly along the tracks....

Momentum and collisions Formula for Oomph An important physical quantity, the name of which we’ll give...

Momentum and collisions Formula for Oomph An important physical quantity, the name of which we’ll give later, corresponds to the intuitive idea of oomph. The more oomph something has, the harder it is to stop, and the more ability it has to knock other things over. Let’s figure out the formula for oomph . A small pebble and a larger rock are thrown at the same speed. Which one has more oomph? Why? The rock is twice as massive as...

1.Imagine two balls colliding on a billiard table that is frictionless. Decide which statement is correct...

1.Imagine two balls colliding on a billiard table that is frictionless. Decide which statement is correct and explain why:(a) The total momentum of the system that contains only one of the two balls is the same before and after the collision.(b) The total momentum of the system that contains both of the two balls is the same before and after the collision. 2.One object is at rest, and another is moving. The two collide in one-dimensional, completely inelastic collision. In...

The physics students wish to test the law of conservation of angular momentum and decides to...

The physics students wish to test the law of conservation of angular momentum and decides to perform a completely inelastic collision between two discs. They attach disc 1 (from part 1) to the rotational sensor then give it a spin. After about 4 seconds, they drop disc 2 on top of disc 1. The whole process takes only ~10 seconds total. The rotational sensor records the angle and velocity of the setup every 0.05 s. Question: Compare the rate of...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy to relate the launch speed of a projectile to the maximum height of the swing of a pendulum. Here we will study the parts of this problem in a bit more detail. (a) Briefly explain why momentum is conserved during the collision of the projectile and the pendulum, but mechanical energy is not conserved. (b) Briefly explain why mechanical energy (kinetic plus potential energy)...

Suppose the two cars had rubber bumpers in the front and back – similar to the...

Suppose the two cars had rubber bumpers in the front and back – similar to the bumper cars children (of all ages!) ride at amusement parks. Also, suppose that the cars are sturdy enough that the metal they are made of does not bend during the collision. In this case, the cars would undergo a perfectly elastic collision. Assume just like in the first collision question that the SUV (initially moving to the right) collides into the stationary smart car....

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m...

Step 1: Before the collision, the total momentum is pbefore = mv0 + 0 where m is the ball’s mass and v0 is the ball’s speed. The pendulum is not moving so its contribution to the total momentum is zero. After the collision, the total momentum is pafter = (m + M) V, where m is the ball’s mass, M is the pendulum mass, and V is the velocity of the pendulum with the ball stuck inside (see the picture...

There are many entrepreneurs in El Alto who are starting their own businesses. However, starting a...

There are many entrepreneurs in El Alto who are starting their own businesses. However, starting a new business is risky, and they are hoping for insurance to smooth their income in the chance that their project does not succeed. To keep things tractable, let’s assume that you are risk-neutral (so all you care about is maximizing profits) and the entrepreneurs have utility ?(?) = ln (?). 1) For this part, assume that an entrepreneur walks into your office with a...