momentum (redirected from momenta)

momentum (mōmĕn`təm), in mechanics, the quantity of motion of a body, specifically the product of the mass of the body and its velocity. Momentum is a vector quantity; i.e., it has both a magnitude and a direction, the direction being the same as that of the velocity vector. When an external force acts upon a body or a system of bodies in motion, it causes a change in the momentum of the body. The impulse of a force acting on a body is the product of the force and the duration of time in which it acts and is equal to the change in momentum of the body. When no external force acts upon a body in motion or a system of bodies there is no change in the total momentum even though, as in the case of a system of bodies, there may be an internal disturbance of the system resulting in changes in the momenta of individual bodies. This conclusion is commonly known as the principle of the conservation of momentum (see conservation laws, in physics). The momentum of a body should not be confused with its kinetic energy. The distinction between them can be seen in the action of a pile driver. The distance to which the pile is driven depends upon its kinetic energy; the length of time required for the action to cease, upon its momentum. In addition to the momentum a body has because of its linear motion, the body may also have angular momentum because of rotation. The angular momentum of a particle rotating about a point is equal to the product of the mass of the particle, its angular velocity, and the square of its distance from the axis of rotation. More simply, the angular momentum is the product of the instantaneous linear momentum and the distance. Angular momentum is a vector quantity directed perpendicular to the plane of motion.

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momentum

Product of the mass of a particle and its velocity. Newton's second law of motion states that the rate of change of momentum is proportional to the force acting on the particle. Albert Einstein showed that the mass of a particle increases as its velocity approaches the speed of light. At the speeds treated in classical mechanics, the effect of speed on the mass can be neglected, and changes in momentum are the result of changes in velocity alone. If a constant force acts on a particle for a given time, the product of the force and the time interval, the impulse, is equal to the change in momentum. For any array of several objects, the total momentum is the sum of the individual momenta. See also angular momentum.

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momentum

1. Physics the product of a body's mass and its velocity.

2. the impetus of a body resulting from its motion

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momentum [mō′ment·əm]

(mechanics)

Also known as linear momentum; vector momentum.

For a single nonrelativistic particle, the product of the mass and the velocity of a particle.

For a single relativistic particle,mv/(1 -v²/c²)^1/2, wheremis the rest-mass,vthe velocity, andcthe speed of light.

For a system of particles, the vector sum of the momenta (as in the first or second definition) of the particles.

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Momentum

Linear momentum is the product of the mass and the linear velocity of a body. It is defined by Eq. (1),

(1) 

where m is the mass and v is the linear velocity. Since linear momentum is the product of a scalar and a vector quantity, it is a vector and hence has both magnitude and direction.

According to the general statement of Newton's second law, for a force F , a momentum P , and a time t, Eq. (2) holds.

(2) 

Thus Newton's second law involves the time rate of change of momentum. Changes of momentum are important in collision processes. See Collision (physics)

When a group of bodies is subject only to forces that members of the group exert on one another, the total momentum of the group remains constant. See Angular momentum, Conservation of momentum, Impulse (mechanics)