No Slide Title
... If c(t) represents the path of a moving particle, then we often let v(t) = c (t) represent its velocity vector, a(t) = v (t) = c (t) represent its acceleration vector, s = ||v(t)|| = ||c (t)|| represent its speed. Let b(t) = (b1(t) , b2(t) , b3(t)) and c(t) = (c1(t) , c2(t) , c3(t)). ...
... If c(t) represents the path of a moving particle, then we often let v(t) = c (t) represent its velocity vector, a(t) = v (t) = c (t) represent its acceleration vector, s = ||v(t)|| = ||c (t)|| represent its speed. Let b(t) = (b1(t) , b2(t) , b3(t)) and c(t) = (c1(t) , c2(t) , c3(t)). ...
Homework No. 06 (Spring 2015) PHYS 420: Electricity and Magnetism II
... 1. (30 points.) Motion of a charged particle of mass m and charge q in a uniform magnetic field B is governed by dv m = q v × B. ...
... 1. (30 points.) Motion of a charged particle of mass m and charge q in a uniform magnetic field B is governed by dv m = q v × B. ...
Motion in Two and Three Dimensions: Vectors
... • We’ll work usually in two dimensions—the three dimensional description is very similar. • Suppose we move a ball from point A to point B on a tabletop. This displacement can be fully described by giving a distance and a direction. • Both can be represented by an arrow, the length some agreed scale ...
... • We’ll work usually in two dimensions—the three dimensional description is very similar. • Suppose we move a ball from point A to point B on a tabletop. This displacement can be fully described by giving a distance and a direction. • Both can be represented by an arrow, the length some agreed scale ...
Expectations for Ch 2 & 3
... • After reading the chapter, complete your Reflections on the chapter. ...
... • After reading the chapter, complete your Reflections on the chapter. ...
EFFECT OF CENTRIFUGAL AND CORIOLIS FORCES DUE TO
... with constant angular velocity ω about its polar axis, then: ...
... with constant angular velocity ω about its polar axis, then: ...
Notes - SFA Physics and Astronomy
... Instantaneous speed, however, is how fast you are moving at an instant in time. It is the quantity measured by the speedometer in your car. The analogous vector quantity is velocity. Acceleration is the change in velocity and is measured in m/s2 or ft/s2. It is a vector and is used for any change in ...
... Instantaneous speed, however, is how fast you are moving at an instant in time. It is the quantity measured by the speedometer in your car. The analogous vector quantity is velocity. Acceleration is the change in velocity and is measured in m/s2 or ft/s2. It is a vector and is used for any change in ...
Up, Up and Away
... We will consider motion the the x-y plane. Positions now have (x,y) coordinates so we need to use vectors. ...
... We will consider motion the the x-y plane. Positions now have (x,y) coordinates so we need to use vectors. ...