Classical Mechanics - Mathematical Institute Course Management
... we are ignoring its back-reaction). One can imagine such a model arising from a closed system, in which the particle has been singled out and the “external force” F is simply the sum of the forces on the particle from the rest of the system. Such effective descriptions of the dynamics typically won’ ...
... we are ignoring its back-reaction). One can imagine such a model arising from a closed system, in which the particle has been singled out and the “external force” F is simply the sum of the forces on the particle from the rest of the system. Such effective descriptions of the dynamics typically won’ ...
Chapter 7
... explain the principles of how a telescope works discover and describe total internal reflection. explain that tides are caused by the Moon. He tried to use stellar parallax caused by the Earth's orbit to measure the distance to the stars; the same principle as depth perception. Today this branch of ...
... explain the principles of how a telescope works discover and describe total internal reflection. explain that tides are caused by the Moon. He tried to use stellar parallax caused by the Earth's orbit to measure the distance to the stars; the same principle as depth perception. Today this branch of ...
Chapter 3 Section 1 Newton`s Second Law
... This is an important reminder that any student who has a grade below 70 on midquarter or end of quarter report cards in a core subject area MUST attend the required after school tutoring from 3-4PM on the designated days for the respective courses, listed below, until the end of the next grading per ...
... This is an important reminder that any student who has a grade below 70 on midquarter or end of quarter report cards in a core subject area MUST attend the required after school tutoring from 3-4PM on the designated days for the respective courses, listed below, until the end of the next grading per ...
Newton`s Laws ppt - Dr. Robert MacKay
... • Mass is a measure of an object’s inertia • Mass is also a measure of the amount of an object’s matter content. (i.e. protons, neutrons, and electrons) • Weight is the force upon an object due to ...
... • Mass is a measure of an object’s inertia • Mass is also a measure of the amount of an object’s matter content. (i.e. protons, neutrons, and electrons) • Weight is the force upon an object due to ...
Work and Energy
... In 1755 Watt had been granted a patent by Parliament that prevented anybody else from making a steam-engine like the one he had developed. For next 25 years, the “Boulton & Watt” company had a virtual monopoly over the production of steam-engines. These machines were mainly sold to colliery owners w ...
... In 1755 Watt had been granted a patent by Parliament that prevented anybody else from making a steam-engine like the one he had developed. For next 25 years, the “Boulton & Watt” company had a virtual monopoly over the production of steam-engines. These machines were mainly sold to colliery owners w ...
Momentum - Harrison High School
... If ____________ changes, then either mass or velocity or both has changed. If mass is unchanged and the ___________ changes then acceleration results. Accelerations are produced by Forces. The greater the force= ______ an objects change in velocity = Greater change in momentum. ...
... If ____________ changes, then either mass or velocity or both has changed. If mass is unchanged and the ___________ changes then acceleration results. Accelerations are produced by Forces. The greater the force= ______ an objects change in velocity = Greater change in momentum. ...
Review Rotational Motion and Equilibrium and Elasticity
... (When no net external force acts on a system, the center-of-mass is stationary. One or more parts of the system can move, but other parts must move in response to keep the center-of-mass in the same place. ) 9.) A 30-kg child stands at one end of a floating 20-kg canoe that is 5.0-m long and initial ...
... (When no net external force acts on a system, the center-of-mass is stationary. One or more parts of the system can move, but other parts must move in response to keep the center-of-mass in the same place. ) 9.) A 30-kg child stands at one end of a floating 20-kg canoe that is 5.0-m long and initial ...
Motion in Two Dimensions
... This also means that if the distance between the centers of the objects changes, the gravity will change. Therefore, if you move closer to the center of the earth, you will experience a greater gravity and you will weigh more! Conversely, if you move out into space, you will weigh less! ...
... This also means that if the distance between the centers of the objects changes, the gravity will change. Therefore, if you move closer to the center of the earth, you will experience a greater gravity and you will weigh more! Conversely, if you move out into space, you will weigh less! ...
Momentum Conservation
... • The rate of change in momentum is proportional to the net force and the change is in the same direction as the force ...
... • The rate of change in momentum is proportional to the net force and the change is in the same direction as the force ...
“Mu of the Shoe”
... different objects. Concept: When two surfaces of objects are in contact with each other, the force of friction between them depends on the nature of the materials in contact and the normal force. Competency: Construct a free body diagram indicating the magnitude and direction of the forces on an obj ...
... different objects. Concept: When two surfaces of objects are in contact with each other, the force of friction between them depends on the nature of the materials in contact and the normal force. Competency: Construct a free body diagram indicating the magnitude and direction of the forces on an obj ...
Chapter 5, Part IV
... • 2) If a (point) particle is inside a thin spherical shell, the gravitational force on the particle is zero. So, we can model a sphere as a series of thin shells. For a mass outside any large spherically symmetric mass, the gravitational force acts as though all the mass of the sphere is at the sph ...
... • 2) If a (point) particle is inside a thin spherical shell, the gravitational force on the particle is zero. So, we can model a sphere as a series of thin shells. For a mass outside any large spherically symmetric mass, the gravitational force acts as though all the mass of the sphere is at the sph ...
