Use the two conservation equations that operate during an elastic collision to solve for the final...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at an initial velocity of 0.44374 m/s, the target cart is at rest. The Incident cart has a mass of 490.3 g and the target cart has a mass of 497.4 g. The final velocity of the incident cart is 0.043994 m/s and the final velocity of the target cart is 0.001001 m/s. The collision is elastic. a) What is the Initial Momentum of the...

Two masses collide in an elastic collision, with the following initial values: m1 = 2 kg...

Two masses collide in an elastic collision, with the following initial values: m1 = 2 kg m2 = 3 kg v01 = 5 m/s v02 = -4 m/s Use the conservation rules, and algebra, what is the final velocity of mass 1, vf1 in m/s?

n Lab 8 we investigated two types of collisions, elastic and inelastic. Assuming an inelastic collision,...

n Lab 8 we investigated two types of collisions, elastic and inelastic. Assuming an inelastic collision, cart 1 with inertia of M and velocity V collides with a stationary cart 2 with inertia of M and they stick together what is the final velocity of the two carts? V 4V V/2 2V

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at...

Two carts are on an air-track where friction is negligible. The Incident Cart is moving at an initial velocity of 0.25080m/s, the target cart is at rest. The Incident cart has a mass of 995.8 g and the target cart has a mass of 490.3 g. The carts stick together, the final velocity after collision is 0.077302 m/s. The collision is considered inelastic. a) What is the Initial Momentum of the carts? b) What is the Final Momentum of the...

During a collision between a photon and an electron, there is conservation of (A) energy, only...

During a collision between a photon and an electron, there is conservation of (A) energy, only (B) momentum, only (C) both energy and momentum (D) neither energy nor momentum As a photon loses energy during a collision, its wavelength (A) decreases (B) increases (C) remains the same

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?

Consider two railway trucks that can travel along a straight railway track which defines the x-axis....

Consider two railway trucks that can travel along a straight railway track which defines the x-axis. A laden truck of mass M = 6.6 × 103 kg and an empty truck of unknown mass m approach each other at constant velocity. The laden truck has an initial velocity component of ux = +2.0ms−1 which is half that of the initial velocity component of the empty truck (but in the opposite direction). After an elastic collision, the velocity component of the...

If you have elastic collision between two objects m1 and m2 , what principles may you...

If you have elastic collision between two objects m1 and m2 , what principles may you apply? A. Conservation of momentum only B. Conservation of momentum and conservation of total energy C. None of the conservation principles D. Conservation of mass only E. Conservation of total energy only

An object of mass M moving at speed v0 has a direct elastic collision with a...

An object of mass M moving at speed v0 has a direct elastic collision with a second object of mass m that is at rest. Using the energy and momentum conservation principles, it can be shown that the final velocity of the object of mass M is v=(M−m)v0/(M+m). Part A Using this result, determine the final velocity of an alpha particle following a head-on collision with an electron at rest. The alpha particle's velocity before the collision is 0.010c; malpha=6.6×10−27kg;...

Describe the energy transfers that occur as a cart inelastically collides with an object of equal...

Describe the energy transfers that occur as a cart inelastically collides with an object of equal mass at rest. This should be a narrative description of the energy transfers that occur as the cart inelastically collides with a cart of equal mass. In your descriptions, address the following: What was the kinetic energy of each cart before and after the collision? What happens to the total energy of the system, now including both carts, as a result of the inelastic...