In a collision between two carts being launched towards each other, one cart having a greater...

Consider a collision between two carts, one of mass mA= 5 kg and the otherof mass...

Consider a collision between two carts, one of mass mA= 5 kg and the otherof mass mB= 7 kg, on a frictionless track. (A). Find the final velocity of Cart A, if both objects are initially moving in opposite directions toward each other at 12 m/s, and Cart B completely stops due to the collision. (B). Is this an elastic or inelastic collision? Why?

Two carts of mass 50 kg have a collision. Before the collision, the first cart was...

Two carts of mass 50 kg have a collision. Before the collision, the first cart was travelling to the right at 4 m/s, and the 2nd cart was travelling to the left at 3 m/s. After the collision, the carts stick together. a) 10 pts What is the velocity of the carts immediately after the collision? b) 6 pts How much kinetic energy was lost in the collision? Where did this energy go? c) 10 pts After the carts have...

1. Assume the cart has a mass of m, and that the carts are oriented so...

1. Assume the cart has a mass of m, and that the carts are oriented so that their velcro bumpers face each other. one of the carts is placed on middle of the track and the other on the far left of the track. suppose you push the cart gently on the left side toward the cart at rest so that the carts collide. mass of cart is .05123 kg a) if the velocity of the moving cart is v...

Imagine two carts of equal mass (m = 1.0 kg) collide. If cart one is initially...

Imagine two carts of equal mass (m = 1.0 kg) collide. If cart one is initially moving at 10 m/s and the other cart is stationary, calculate the final speed of each mass after they have a 100% elastic collision. Please show all work!

Two identical carts, each with a mass of 150-g, collide while moving on a surface. Initially,...

Two identical carts, each with a mass of 150-g, collide while moving on a surface. Initially, cart 1 moves at +2.2 m/s and cart 2 moves at +4.2 m/s. After the collision, cart 1 is moving at +3.9 m/s while cart 2 moves at +2.0 m/s. a. Draw a Momentum Diagram for the collision. b. Determine the momentum of each cart before and after the collision. c. Determine the total momentum before and after the collision. d. Was momentum conserved...

1a. In the Impulse & Momentum experiment, the collision between the two carts of equal masses...

1a. In the Impulse & Momentum experiment, the collision between the two carts of equal masses and the end stop was between two magnets faced against each other so that the magnets would repel. If the magnets were replaced with hard plastic, how would the magnitude of the force vs time chart change? No change The peak would become bigger The magnitude would stall the same, but the sign would flip The peak would become smaller 1b. In the Impulse...

Two carts are rolling to the right along the same level track. Cart 1 (m1 =...

Two carts are rolling to the right along the same level track. Cart 1 (m1 = 3.81 kg) is in the rear, rolling at a speed of 6.25 m/s and catching up to cart 2, rolling at 3.07 m/s. Round final results to 3 digits. a) Cart 1 of course overtakes and collides with cart 2. Velcro pads on the carts make them stick together during the collision, after which they both continue rolling right, but at a speed of...

Students in a physics lab set up an apparatus to study the collisions between two lab...

Students in a physics lab set up an apparatus to study the collisions between two lab carts. They affix identical springs at opposite ends of the track. They place a small cart on the left side of the track and a larger, more massive cart on the right side of the track. IN numerous trials, the students press the carts against the springs and then release them from rest such that they are launched towards eachother. The carts are affixed...

I tested newtons third law by creating a mathematical model with crashing carts traveling at the...

I tested newtons third law by creating a mathematical model with crashing carts traveling at the same speed towards each other, the second set had the same concept but now with 200 g added to one cart. In order to test the force we attached force sensors to each collision cart. I clearly remember all steps and information from the experiment but I'm having trouble creating a mathematical model with equations and comparing the two to prove or show the...

If two carts of equal masses going -1m/s and 1m/s respectively collide with each other instantaneously,...

If two carts of equal masses going -1m/s and 1m/s respectively collide with each other instantaneously, what is the change in momentum (impulse) for each of the carts? In an example like this, what would I use for delta(t) in the impulse equation? If the collision is instantaneous, how am I supposed to know how long a force was applied for?