--------Experiment #6Determine the mass of each of the carts used in the experimentSet up the carts so they bounce off of each other after collidingPlace the unknown mass into cart 2.Mass of unknown cart=Push both carts into each other, so neither is initially at rest.Using the Vernier motion sensors determine the velocities of each cart before and after thecollsion.Use the conservation of momentum to determine the mass of the unknown cart.redCart 1 Mass0.531 kg.M₁ VII + M₂V₂i = M₁ vif + M₂ V₂f.redCart 1 Mass0.531 kgCart 1 vi0.274m₂ =Determine the mass of each of the carts used in the experimentSet up the carts so they stick together after collidingPlace the unknown mass into cart 2.Cart 1 v₁OMass of unknown cart =Cart 1 vf0.169With cart 1 at rest push cart 2 into itUsing the Vernier motion sensors determine the velocities of each cart before and after thecollsion.Use the conservation of momentum to determine the mass of the unknown cart.BlueCart 2 vi-0.20.Cart 1 vf-0.106BlueCart 2 vi- 0.178Cart 2 vf0.057m₁vll + m₂v₂i = M₁ vif + m₂ V₂f.tmzV₂m₂ =Cart 2 Vf6 108

Name: --------Experiment #6Determine the mass of each of the carts used in
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Description: --------Experiment #6Determine the mass of each of the carts used in the experimentSet up the carts so they bounce off of each other after collidingPlace the unknown mass into cart 2.Mass of unknown cart=Push both carts into each other, so neither i

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Determine the mass of each of the carts used in the experiment Set up the carts so they bounce off of each other after colliding Place the unknown mass into cart 2. Push both carts into each other, so neither is initially at rest. Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. M, VII + M₂v2i = M₁ vic +M₂ V₂f. red Cart 1 Mass 0.531 kg Mass of unknown cart= Experiment #6 Cart 1 v 0.274 red Cart 1 Mass 0.531 kg m₂ Cart 1 vi 0 Mass of unknown cart= Cart 1 v -0.169 Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. = With cart 1 at rest push cart 2 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. Blue Cart 2 vi -0.20. Cart 1 vf -0.106 Blue Cart 2 vi -0.178 Cart 2 vf 0.057 m₁vll + m₂v₂i = M₁ vit + m₂ V₂ f m₂ = Cart 2 Vf عها

Determine the mass of each of the carts used in the experiment Set up the carts so they bounce off of each other after colliding Place the unknown mass into cart 2. Push both carts into each other, so neither is initially at rest. Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. M, VII + M₂v2i = M₁ vic +M₂ V₂f. red Cart 1 Mass 0.531 kg Mass of unknown cart= Experiment #6 Cart 1 v 0.274 red Cart 1 Mass 0.531 kg m₂ Cart 1 vi 0 Mass of unknown cart= Cart 1 v -0.169 Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. = With cart 1 at rest push cart 2 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. Blue Cart 2 vi -0.20. Cart 1 vf -0.106 Blue Cart 2 vi -0.178 Cart 2 vf 0.057 m₁vll + m₂v₂i = M₁ vit + m₂ V₂ f m₂ = Cart 2 Vf عها

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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