The figure below shows a ball of mass m=1.9 kg which is connected to a string...
The figure below show three masses m1=1.1 kg, m2=2.8 kg, and m3=4.3 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=8.2 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? The figure below show three masses m1=1.1 kg, m2=2.8 kg, and m3=4.3 kg...
The figure below show three masses m1=1.7 kg, m2=2.9 kg, and m3=4.5 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=7.9 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? (use figure in picture, but answer question above) The figure below show three...
The figure below shows a ball of mass m=1.9 kg which is connected to a string of length L=1.5 m and moves in a vertical circle. Only gravity and the tension in the string act on the ball. If the velocity of the ball at point A is v0=10.4 m/s, what is the tension T in the string when the ball reaches the point D? The figure below shows a ball of mass m=1.9 kg which is connected to a...
The figure below show three masses m1=1.6 kg, m2=3.0 kg, and m3=4.6 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=6.9 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? V 1 2 co
The figure below show three masses m1=1.5 kg, m2=2.7 kg, and m3=4.6 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=8.6 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? V 1 2 co
The figure below show three masses m1=1.6 kg, m2=3.0 kg, and m3=4.6 kg which undergo two successive collisions. The first collision between m1, which has an initial velocity v=6.9 m/s, and m2 (which is initially at rest) is completely inelastic. The second collision between the combined mass m1+m2 and m3 (which is initially at rest) is elastic. What is the velocity of m3 after the second collision? V 1 2 3
The figure below shows a ball of mass m=1.9 kg which is connected to a string of length L=1.5 m and moves in a vertical circle. Only gravity and the tension in the string act on the ball. If the velocity of the ball at point A is v0=10.4 m/s, what is the tension T in the string when the ball reaches the point D? D A / m m L С VO B
The figure below show three masses m1=1.5 kg, m2=2.9 kg, and m3=4.6 kg which undergo two successive completely inelastic collisions. If m1 has an initial velocity v=6.2 m/s and both m2 and m3 are initially at rest, what is the velocity of the combined mass after the second collision. V 1 2 co
The figure below shows a ball of mass m=1.6 kg which is connected to a string of length L=2.0 m and moves in a vertical circle. Only gravity and the tension in the string act on the ball. If the velocity of the ball at point A is v0=10.7 m/s, what is the tension T in the string when the ball reaches the point D? A m n 1 •C B
The figure below shows a ball of mass m=1.5 kg which is connected to a string of length L=1.4 m and moves in a vertical circle. Only gravity and the tension in the string act on the ball. If the velocity of the ball at point A is v0=8.6 m/s, what is the tension T in the string when the ball reaches the point D? (use figure, but answer the question above.) The figure below shows a ball of mass...