Mass and Momentum

Descripción

Bachelor Degree (Mass and Momentum) Applied Maths Apunte sobre Mass and Momentum, creado por katie.barclay el 23/06/2015.
katie.barclay
Apunte por katie.barclay, actualizado hace más de 1 año
katie.barclay
Creado por katie.barclay hace más de 9 años
211
6

Resumen del Recurso

Página 1

Mass Conversion - Mass cannot be created or destroyed. The mass of a closed system can be redistributed at will subject to the constraint that the total mass within the system is constant. The Linear Momentum of a particle of mass m moving with velocity v is defined to be p = mv = mx' .Newton's Laws In an inertial frame every body continues in a state of rest or uniform motion unless acted on by a force. In an intertial frame the force acting on a body is equal to its rate of change of momentum. Action and reaction are equal and opposite forces. An Impulse is a change in momentum (short time, large magnitude). The Kinetic Energy of a particle of mass m moving with speed v is defined to be K = 1/2 mv^2.Conservation of Linear Momentum and CollisionsThe Rate of Change of Total Linear Momentum is d/dt (p1 + p2) = F12 + F21 and total linear momentum is constant throughout the collision. This gives us the conservation of linear momentum, written as m1u1 + m2u2 = p1 + p2 = m1v1 + m2v2. Coefficient of Restitution - In a collision between two point particles with inital velocities u1 and u1 and respective final velocities v1 and v2, the relative velocity of particle 1 with respect to particle 2 after impact is related to the same relative velocity before impact by the formula (v1 - v2) = -e (u1 - u2) provided the collision causes "no significant deformation to either body". In the formula the number e is between 0 and 1 and is called the coefficient of restitution for the two bodies. A perfectly elastic collision occurs when e=1 and a perfectly inelastic collision corresponds to the case e=0 (the bodies are fused together).

Mostrar resumen completo Ocultar resumen completo

Similar

Physics: Energy resources and energy transfer
katgads
Junior Cert Physics formulas
Sarah Egan
Physics P1
themomentisover
OCR Physics P2 revision cards
Alex Howard
P2 Quiz
Leah Firmstone
P2a (part 2)
juliasutton
Quantum physics
hmccain
Physics Unit 2 - Force, Acceleration And Terminal Velocity
Ryan Storey
Projectile Motion
katie.barclay
Forces and Friction
katie.barclay
Temperature, Ideal Gases and Related Topics
mickiebowen9359