Speed, Velocity, and Acceleration
... up again, and eventually slowed down. Most examples of motion involve similar changes. In fact, rarely does any object’s motion stay the same for very long. ...
... up again, and eventually slowed down. Most examples of motion involve similar changes. In fact, rarely does any object’s motion stay the same for very long. ...
scalar: quantity described by magnitude (size) only vector: quantity
... change in motion * change in motion = change in speed and/or direction = change in velocity = acceleration * recall the difference between mass and weight: - mass is the same everywhere in the universe (independent of gravitational field) - weight is directly proportional to mass, but changes from p ...
... change in motion * change in motion = change in speed and/or direction = change in velocity = acceleration * recall the difference between mass and weight: - mass is the same everywhere in the universe (independent of gravitational field) - weight is directly proportional to mass, but changes from p ...
File
... Translate and then reflect figure A to compare it to figure B. Although some of the corresponding sides are congruent, the corresponding angles are not all congruent. So, the figures are not ...
... Translate and then reflect figure A to compare it to figure B. Although some of the corresponding sides are congruent, the corresponding angles are not all congruent. So, the figures are not ...
Powerpoint - Math Sciences Computing Facility
... crossing line (we did not get to this) Follow up with GeoGebra explorations and explanations – with GeoGebra and drawn figures we were able to see how the result of reflecting first in one line and then in a parallel line was a translation in the perpendicular direction from the first line towards t ...
... crossing line (we did not get to this) Follow up with GeoGebra explorations and explanations – with GeoGebra and drawn figures we were able to see how the result of reflecting first in one line and then in a parallel line was a translation in the perpendicular direction from the first line towards t ...
Chapter 5: Circular Motion
... • Uniform Circular Motion is motion of an object in a circular path with constant (uniform) speed. • Its linear speed is constant. Its angular velocity (ω) is constant. • Direction constantly changing. • Hence linear velocity v is not constant. • The instantaneous direction of v is tangential to the ...
... • Uniform Circular Motion is motion of an object in a circular path with constant (uniform) speed. • Its linear speed is constant. Its angular velocity (ω) is constant. • Direction constantly changing. • Hence linear velocity v is not constant. • The instantaneous direction of v is tangential to the ...