oscillations
oscillations

Vectors and Scalars
Vectors and Scalars

Student Text, pp. 232-238
Student Text, pp. 232-238

... Newton’s second law of motion. Newton’s second law states that an object acted upon by an external net force accelerates in the direction of the net force; the relationship between the object’s mass, acceleration, and the net force acting on it is expressed by the equation F  ma. We can derive ...
Vacuum Friction in Rotating Particles
Vacuum Friction in Rotating Particles

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... b) The vector sum of all the external forces that act on the body must be zero. c) The linear momentum of the object must be zero. d) The vector sum of all the external torques acting on the body must be zero. e) All of the above are requirements of static equilibrium. ...
Gravitational Induction and the Gyroscopic Force
Gravitational Induction and the Gyroscopic Force

... acceleration equation (1) below. There must be a deeper significance to Kepler’s law of areal velocity, which we will now investigate. The general acceleration equation is obtained by differentiating a position vector in polar coordinates twice with respect to time. It takes the form, ...
Solutions to Problems
Solutions to Problems

No Slide Title
No Slide Title

An introduction to electric motors
An introduction to electric motors

... The rotation is obtained thanks to the attractive force between two magnetic fields:  One field is located on the rotor (the moving part).  The second magnetic field is located on the stator (the body of the motor). ...
MECHANICS Lecture notes for Phys 111 Abstract
MECHANICS Lecture notes for Phys 111 Abstract

... beats per min. How many gallons of blood does the heart pump in 1 year? ( 1 gallon= 3800 cm3 ). ...
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Slide 1
Slide 1

03. Momentum
03. Momentum

... 2. Write an expression for the total initial momentum of the system. (pTOTi = ) 3. Write an expression for the total final momentum of the system (pTOTf = ) 4. Set the expression for the total initial momentum equal to the expression for the total final momentum: ...
1 CHAPTER 22 DIMENSIONS 22.1 Mass, Length and Time Any
1 CHAPTER 22 DIMENSIONS 22.1 Mass, Length and Time Any

Ch. 19 Magnetic fields
Ch. 19 Magnetic fields

... velocity, but not the magnitude. Magnetic forces don’t change the particle’s kinetic energy. Magnetic field do not do work. Setting magnetic force to centripetal force: ...
Chapter 5 Single-Phase Motors
Chapter 5 Single-Phase Motors

Angular Momentum Solutions
Angular Momentum Solutions

July 2016 Exam Review
July 2016 Exam Review

CHAPTER 4 RIGID BODY ROTATION
CHAPTER 4 RIGID BODY ROTATION

Engineering Science - Mechanics Statics – Course Content
Engineering Science - Mechanics Statics – Course Content

1 PHYSICS 231 Lecture 13: Keeping momentum
1 PHYSICS 231 Lecture 13: Keeping momentum

Chapter 7:Rotation of a Rigid Body
Chapter 7:Rotation of a Rigid Body

Momentum - Red Hook Central Schools
Momentum - Red Hook Central Schools

... A measure of how hard it is to stop an object. It is like a quantity of motion. ...
Adding Vectors Graphically and Component Method
Adding Vectors Graphically and Component Method

Wednesday, Jan. 25, 2006
Wednesday, Jan. 25, 2006

... • If an object with an electric charge q is at a point in space where electric field is E, the force exerting on the object is F  qE. • What do you think will happen to the charge? – Let’s think about the cases like these on the right. – The object will move along the field line…Which way? – The ch ...

Torque