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An Object of Mass M Is Moving with Velocity V

Question 84

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An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3
An object of mass M is moving with velocity V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 + An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 ) , v(2 An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 - An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 ) , and v(2 An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 - 2 An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is


A) 15V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /18 + V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /9
B) 23V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /18 + V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /9
C) 13V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /6 + V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /3
D) 13V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /18 + V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /9
E) 23V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /18 + V An object of mass M is moving with velocity V . Three smaller objects each of mass m are initially at rest. After the collision the small masses have velocities given by v( + ) , v(2 - ) , and v(2 - 2 ) . If m = M/6 and v = V/3, then the final vector velocity of the mass M is A) 15V /18 + V /9 B) 23V /18 + V /9 C) 13V /6 + V /3 D) 13V /18 + V /9 E) 23V /18 + V /3 /3

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