Wednesday, December 5, 2007
Wednesday, December 5, 2007

chapter2 - TTU Physics
chapter2 - TTU Physics

... The kinematic equations can be used with any particle under uniform acceleration. The kinematic equations may be used to solve any problem involving one-dimensional motion with a constant acceleration You may need to use two of the equations to solve one problem Many times there is more than one way ...
Monday, Nov. 10, 2003
Monday, Nov. 10, 2003

... What else do you learn? The direction of L is +z Since p is mv, the magnitude of L becomes L  mvr sin  What do you learn from this? ...
Introduction
Introduction

Chapter 8 Momentum, Impulse and Collisions
Chapter 8 Momentum, Impulse and Collisions

Homework # 4
Homework # 4

... The maximum wave vector K should be in the order of 1010 m-1 Assume the oscillation frequency is associated with the maximum wave vector v= ω/k will yield 3*103 m ...
Monday, April 1, 2013
Monday, April 1, 2013

Supplimentary Notes IV Rotational Dynamics So far we have only
Supplimentary Notes IV Rotational Dynamics So far we have only

Chapter 10
Chapter 10

Graph the direct variation equation
Graph the direct variation equation



... what is the ray path through arbitrary n(r)? ...
Acceleration notes
Acceleration notes

... constantly pushing down on them. The force will cause the velocity of freely falling objects to constantly change. This results in a form of constant acceleration called gravitational acceleration. We refer to objects that are freely falling as objects in “freefall”. For example, if you throw a ball ...
vector - Haiku
vector - Haiku

... • Relative velocity is about relating the measurements of two different observers • It may be useful to use a moving frame of reference instead of a stationary one • It is important to specify the frame of reference, since the motion may be different in different frames of reference • There are no s ...
x - WordPress.com
x - WordPress.com

Angular Acceleration - mrhsluniewskiscience
Angular Acceleration - mrhsluniewskiscience

... If the angular velocity of a rotating body is not constant, then the body has an angular acceleration. If w2 and w1 be its angular velocities at times t2 and t1, respectively, then the average angular acceleration of the rotating body in the interval from t1 to t2 is defined as ...
document
document

... A 1 kg ball moves east at 5 m/s. It hits a 2 kg ball moving at 4 m/s, west. After the collision, the 1 kg ball has a velocity of 6 m/s, west. What is the speed of the 2 kg ball after the collision? ...
Section 15.2 - 15.3 Lecture Notes (Conversation of Momentum)
Section 15.2 - 15.3 Lecture Notes (Conversation of Momentum)

Ch 6 Pretest
Ch 6 Pretest

I = m • Δ v - CUSDPhysics
I = m • Δ v - CUSDPhysics

... So, objects in motion are said to have momentum. This momentum is a vector. It has a size and a direction. The size of the momentum is equal to the mass of the object multiplied by the size of the object's velocity. The direction of the momentum is the same as the direction of the object's velocity. ...
Momentum
Momentum

Introduction to Differential Equations
Introduction to Differential Equations

Math 015 - Sample Final Exam SHORT ANSWER. Write the word or
Math 015 - Sample Final Exam SHORT ANSWER. Write the word or

CONSERVATION of MOMENTUM
CONSERVATION of MOMENTUM

Angular Momentum about Center of Mass
Angular Momentum about Center of Mass

... is constant then only the direction of the spin angular momentum r r L P,  Lspin  I1 rφ along the axis of the gyroscope is changing in time hence ...
OPTIMAL TRANSPORTATION, DISSIPATIVE PDE`S AND
OPTIMAL TRANSPORTATION, DISSIPATIVE PDE`S AND

Routhian mechanics