USE GRESA METHOD FOR THE SOLUTION7. Three balls A, B, and C with masses 0.0500 kg, 0.0700 kg, and 0.0900 kg, respectively, are moving along the xy-plane and approaching the origin as shown in the figure below. Ignore friction. The initial velocities of balls A and B are shown in the figure. Suppose all three balls arrive at the origin at the same time and stick together after the collision. What must be the x- and y-components of the initial velocity of ball C in order for the three balls to move along the +x-axis at 1.00 m/s after the collision? USE GRESA METHOD TO SOLVE THIS PROBLEM7. Three balls A, B, and C with masses 0.0500 kg, 0.0700 kg, and 0.0900 kg, respectively, are moving along thexy-plane and approaching the origin as shown in the figure below. Ignore friction. The initial velocities of balls A andB are shown in the figure. Suppose all three balls arrive at the origin at the same time and stick together after thecollision.What must be the x- and y-components of the initial velocity of ball C in order for the three balls to move along the+x-axis at 1.00 m/s after the collision?Vc45°AVA= 2.00 m/sBVB = 0.600 m/sy

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Description: USE GRESA METHOD FOR THE SOLUTION7. Three balls A, B, and C with masses 0.0500 kg, 0.0700 kg, and 0.0900 kg, respectively, are moving along the xy-plane and approaching the origin as shown in the figure below. Ignore friction. The initial velocities

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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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USE GRESA METHOD FOR THE SOLUTION 7. Three balls A, B, and C with masses 0.0500 kg, 0.0700 kg, and 0.0900 kg, respectively, are moving along the xy-plane and approaching the origin as shown in the figure below. Ignore friction. The initial velocities of balls A and B are shown in the figure. Suppose all three balls arrive at the origin at the same time and stick together after the collision. What must be the x- and y-components of the initial velocity of ball C in order for the three balls to move along the +x-axis at 1.00 m/s after the collision?

USE GRESA METHOD TO SOLVE THIS PROBLEM
7. Three balls A, B, and C with masses 0.0500 kg, 0.0700 kg, and 0.0900 kg, respectively, are moving along the
xy-plane and approaching the origin as shown in the figure below. Ignore friction. The initial velocities of balls A and
B are shown in the figure. Suppose all three balls arrive at the origin at the same time and stick together after the
collision.
What must be the x- and y-components of the initial velocity of ball C in order for the three balls to move along the
+x-axis at 1.00 m/s after the collision?
Vc
45°
A
VA= 2.00 m/s
B
VB = 0.600 m/s
y

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