Chapter 6 Impulse and Momentum Continued
... 6.2 The Principle of Conservation of Linear Momentum PRINCIPLE OF CONSERVATION OF LINEAR MOMENTUM The total linear momentum of an isolated system is constant (conserved). An isolated system is one for which the sum of the average external forces acting on the system is zero. ...
... 6.2 The Principle of Conservation of Linear Momentum PRINCIPLE OF CONSERVATION OF LINEAR MOMENTUM The total linear momentum of an isolated system is constant (conserved). An isolated system is one for which the sum of the average external forces acting on the system is zero. ...
Angular Velocity (cont.)
... • Velocity is displacement divided by the time taken to make the displacement. • The angular velocity of an object is angular displacement divided by the time required to make the displacement. ...
... • Velocity is displacement divided by the time taken to make the displacement. • The angular velocity of an object is angular displacement divided by the time required to make the displacement. ...
Ch6 - Force and Motion-II
... Example: Bodies connected by a cable and pulley • Cart connected to bucket by cable passing over pulley. • Initially, assume pulley is massless and frictionless! ...
... Example: Bodies connected by a cable and pulley • Cart connected to bucket by cable passing over pulley. • Initially, assume pulley is massless and frictionless! ...
Review Rotational Motion and Equilibrium and Elasticity
... How long after starting does it take for P to return to its original position on the x-axis? ...
... How long after starting does it take for P to return to its original position on the x-axis? ...
The Effect of Axial Concentration Gradient on
... of Eq. 2 represents the electrostatic force acting on the fluid through the interactions between the electric field and the net charge density in the electrolyte solution. The infinitesimal contribution of the body force due to gravitational acceleration is neglected. A non-slip boundary condition ( ...
... of Eq. 2 represents the electrostatic force acting on the fluid through the interactions between the electric field and the net charge density in the electrolyte solution. The infinitesimal contribution of the body force due to gravitational acceleration is neglected. A non-slip boundary condition ( ...
Alignment to Michigan Educational Standards- Physical Science Maglev Module
... Apply conservation of momentum to solve simple collision problems. Gravitational Interactions Gravitation is an attractive force that a mass exerts on every other mass. The strength of the gravitational force between two masses is proportional to the masses and inversely proportional to the square o ...
... Apply conservation of momentum to solve simple collision problems. Gravitational Interactions Gravitation is an attractive force that a mass exerts on every other mass. The strength of the gravitational force between two masses is proportional to the masses and inversely proportional to the square o ...
Moment of inertia
... Write an expression for the torque applied by each Counterclockwise torques are positive; clockwise torques are negative. If α = 0 (“static equilibrium”, “dynamic equilibrium”): This means that the net torque (about any pivot) is zero Choose a pivot on top of a force whose value you don’t know and d ...
... Write an expression for the torque applied by each Counterclockwise torques are positive; clockwise torques are negative. If α = 0 (“static equilibrium”, “dynamic equilibrium”): This means that the net torque (about any pivot) is zero Choose a pivot on top of a force whose value you don’t know and d ...
