Rigid Bodies, Translations, and Rotations TERMS
Rigid Bodies, Translations, and Rotations TERMS

examkracker
examkracker

Linear momentum / Collisions
Linear momentum / Collisions

What is angular momentum?
What is angular momentum?

Tutorial 4
Tutorial 4

Course 3
Course 3

... To solve multi-step equations with variables on both sides, first combine like terms and clear fractions. Then add or subtract variable terms to both sides so that the variable occurs on only one side of the equation. Then use properties of equality to isolate the variable. ...
Galactic Matter and Interstellar Flight
Galactic Matter and Interstellar Flight

... dm p0 = 0 A0 v0 dt 0 9 The time variable o is not particularly useful since the point of most interest is the duration of travel in shiptime, i.e. in time as measured by the ship clocks. We denote shiptime in crements by ds; related to the spaceframe time by the Lorentzian expression dt s = ...
ap physics 1
ap physics 1

8.012 Physics I: Classical Mechanics
8.012 Physics I: Classical Mechanics

Teaching Forces and Motion with Confidence I.O.P day @ Rugby
Teaching Forces and Motion with Confidence I.O.P day @ Rugby

... The ball rapidly reaches terminal velocity, when the forces of weight (down) and drag and upthrust (up) are equally balanced. Note drag is the only force that varies with speed. Sketch a graph of its motion form rest, and use it to explain initial acceleration and terminal velocity in terms of the f ...
Week35_LABI1Y_Presentation_1 - IT
Week35_LABI1Y_Presentation_1 - IT

... necessary to design an experimental system. ...
Physics 207: Lecture 2 Notes
Physics 207: Lecture 2 Notes

5.2: Solving Quadratic Equations by Factoring
5.2: Solving Quadratic Equations by Factoring

... 5.2: Solving Quadratic Equations by Factoring (p. 256) ...
Mechanics Notes II Forces, Inertia and Motion The mathematics of
Mechanics Notes II Forces, Inertia and Motion The mathematics of

... simple form. Since particle interactions result in changes in the velocity of a particle, we are motivated to try and express the laws of motion in terms of the change in velocity of a particle: d~v /dt. Therefore, we believe that the highest derivative of position with time in the basic equations o ...
Aerodynamics - dept.aoe.vt.edu
Aerodynamics - dept.aoe.vt.edu

Uniform Circular Motion 2
Uniform Circular Motion 2

... In  that  case,  you  treat  this  case  the  same  way  you  did  in  any  dynamics  problem,  the  sum  of  the  forces   matters...not  any  one  force.    So  for  instance,  if  we  changed  the  prior  example  by  having  the  object  moving   in  a  vertical  circle,  rather  than  a  horizo ...
Lecture 5.1
Lecture 5.1

... with negligible friction and at (almost) constant speed on any level surface. After the puck has left the instructor’s hands the horizontal forces on the puck are: ...
PH2213 : Examples from Chapter 7 : Work and Kinetic Energy Key
PH2213 : Examples from Chapter 7 : Work and Kinetic Energy Key

Newton`s First Law - Burnet Middle School
Newton`s First Law - Burnet Middle School

Uniform Circular Motion
Uniform Circular Motion

introduction to vibration and stability
introduction to vibration and stability

... Depending on excitation: Deterministic: If the value or magnitude of the excitation (force or motion) acting on a vibratory system is known at any given time, the excitation is called deterministic. The resulting vibration is known as deterministic vibration. Random Vibration: In the cases where the ...
1.52 F =m/a/Resultant Forces
1.52 F =m/a/Resultant Forces

Section 7.1 - University of South Florida
Section 7.1 - University of South Florida

... a. Set x = 0 in 2x – y = 4 and solve for y: 2(0) – y = 4, or y = –4 so the y-intercept is –4. b. Set y = 0 in 2x – y = 4 and solve for x: 2x – 0 = 4, or x = 2 so the x-intercept is 2. (ii) Find intercepts of equation (2). x-intercept is 6; y-intercept is 4 © 2010 Pearson Education, Inc. All rights r ...
Centripetal Force / Gravity (very good practice)
Centripetal Force / Gravity (very good practice)

Circular Motion
Circular Motion

... would you have if a car slowed from 60 mph to 20 mph going around a curve? – Start by figuring out how much of your initial velocity you are going ...

Equations of motion