A thin empty frame is hung along side A (see figure). Side A is 1.19 m long and side B is 0.957 m long. Side C is hit by a bullet with a mass of 26.0 g, an initial velocity of 148.08 m/s and a final velocity of −118 m/s. Calculate the energy loss during the impact if the frame rotates frictionlessly around the z-axis and the frame's moment of inertia around this axis is 1,885 kg · m². Assume that the ball bounces straight back after the impact.
A thin empty frame is hung along side A (see figure). Side A is 1.19 m long and side B is 0.957 m long. Side C is hit by a bullet with a mass of 26.0 g, an initial velocity of 148.08 m/s and a final velocity of −118 m/s. Calculate the energy loss during the impact if the frame rotates frictionlessly around the z-axis and the frame's moment of inertia around this axis is 1,885 kg · m². Assume that the ball bounces straight back after the impact.
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter1: Units And Measurement
Section: Chapter Questions
Problem 1.7CYU: Check Your Understanding Figure 1.4 says the mass of the atmosphere is 1019kg . Assuming the density...
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A thin empty frame is hung along side A (see figure). Side A is 1.19 m long and side B is 0.957 m long. Side C is hit by a bullet with a mass of 26.0 g, an initial velocity of 148.08 m/s and a final velocity of −118 m/s. Calculate the energy loss during the impact if the frame rotates frictionlessly around the z-axis and the frame's moment of inertia around this axis is 1,885 kg · m². Assume that the ball bounces straight back after the impact.
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