1. 1 Chapter 9 Systems of Particles�The Center of Mass The center of mass of a body or a system of bodies is the point that moves as though all of the mass were concentrated there and all external forces were applied there.�
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3. 3 The center of mass of an object needs not lie within the object. There is no dough at the center of mass of a doughnut, and no iron at the center of mass of a horseshoe.
4. 4 Sample Problem 9-1 Three particles of masses m1 = 1.2 kg, m2 = 2.5 kg, and m3 = 3.4 kg form an equilateral triangle of edge length a = 140 cm. Where is the center of mass of this three-particle system?
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7. 7 Newtons Second Law for a System of Particles
is the net force of all external forces that act on the system. Forces on one part of the system from another (internal forces) are not included.�
M is the total mass of the system. We assume that no mass enters or leaves the system as it moves, so that M remains constant. The system is said to be closed.�
is the acceleration of the center of mass of the system. The equation gives no information about the acceleration of any other point of the system.
8. 8 This means that the center of mass of the fragments follows the same parabolic trajectory that the rocket would have followed had it not exploded.
9. 9 Sample Problem 9-3 The three particles in the figure are initially at rest. Each experiences an external force due to bodies outside the three-particle system. The directions are indicated, and the magnitudes are F1 = 6.0 N, F2 = 12 N, and F3 = 14 N. What is the acceleration of the center of mass of the system, and in what direction does it move?
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12. 12 Linear Momentum
Linear momentum is a vector and the SI unit is kg-m / s.
For constant mass,
13. 13 Linear Momentum for a System of Particles
The linear momentum of a system of particles is equal to the product of the total mass M of the system and the velocity of the center of mass.
For constant mass,
14. 14 Sample Problem 9-4 Figure 9-8a shows a 2.0 kg toy race car before and after taking a turn on a track. Its speed is 0.50 m/s before the turn and 0.40 m/s after the turn. What is the change D in the linear momentum of the car due to the turn?
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16. 16 Conservation of Linear Momentum If no net external force acts on a system of particles, the total linear momentum of the system cannot change.�
If the component of the net external force on a closed system is zero along an axis, then the component of the linear momentum of the system along that axis cannot change.
17. 17 Sample Problem 9-5 A ballot box with mass m = 6.0 kg slides with speed v = 4.0 m/s across a frictionless floor in the positive direction of an x axis. It suddenly explodes into two pieces. One piece, with mass m1 = 2.0 kg, moves in the positive direction of the x axis with speed v1 = 8.0 m/s. What is the velocity of the second piece, with mass m2 ?
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19. 19 Sample Problem 9-7 A firecracker placed inside a coconut of mass M, initially at rest on a frictionless floor, blows the coconut into three pieces that slide across the floor. An overhead view is shown in the figure. Piece C, with mass 0.30M, has final speed vfC = 5.0 m/s.
(a) What is the speed of piece B, with mass 0.20M?
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21. 21 (b) What is the speed of piece A?
