MOTION: Describing and Measuring Motion
... Describe motions with reference terms such as: north, south, east, west, up, down, right, left, etc. ...
... Describe motions with reference terms such as: north, south, east, west, up, down, right, left, etc. ...
PPTX - University of Toronto Physics
... A ring, seen from above, is pulled on by three forces. The ring is not moving. How big is the force F? ...
... A ring, seen from above, is pulled on by three forces. The ring is not moving. How big is the force F? ...
Document
... • Using F = m a, and the Law of Gravitation W = m g = G (m MEarth) /R2 (R – Radius of the Earth) The mass m of the falling object cancels out and does not matter; therefore all objects fall at the same rate or acceleration g = GM / R2 i.e. constant acceleration due to gravity 9.8 m/sec2 ...
... • Using F = m a, and the Law of Gravitation W = m g = G (m MEarth) /R2 (R – Radius of the Earth) The mass m of the falling object cancels out and does not matter; therefore all objects fall at the same rate or acceleration g = GM / R2 i.e. constant acceleration due to gravity 9.8 m/sec2 ...
Chapter 2: MOTION AND SPEED
... Sometimes you may want to know not only your distance, but also your direction from a reference point. ...
... Sometimes you may want to know not only your distance, but also your direction from a reference point. ...
AP Physics ID
... Two types of forces on the system • Internal – forces that objects within the system exert on each other • External – forces that objects outside the system exert on each other ...
... Two types of forces on the system • Internal – forces that objects within the system exert on each other • External – forces that objects outside the system exert on each other ...
1st term exam solutions
... b. As the magnitude of the applied force increases, the frictional force goes from pointing down to pointing up the plane. c. As the magnitude of the applied force increases, the frictional force goes from pointing up to pointing down the plane. d. The force of static friction always equals in magni ...
... b. As the magnitude of the applied force increases, the frictional force goes from pointing down to pointing up the plane. c. As the magnitude of the applied force increases, the frictional force goes from pointing up to pointing down the plane. d. The force of static friction always equals in magni ...
Wksht Momentum and Collisions
... 2. An ivory ball of mass 100 g is moving at a velocity of 20 cm/s to the right. It collides with a second ball with a mass of 200 g, which is moving at 10 cm/s to the right. After the collision, the first ball is slowed to 5 cm/s to the right, what is the final velocity of the second ball? 3. A 5 kg ...
... 2. An ivory ball of mass 100 g is moving at a velocity of 20 cm/s to the right. It collides with a second ball with a mass of 200 g, which is moving at 10 cm/s to the right. After the collision, the first ball is slowed to 5 cm/s to the right, what is the final velocity of the second ball? 3. A 5 kg ...
Physics Midterm Study Guide
... sequence just above or below an arrow representing the x-axis and the positive direction. Arrows (vectors) are added between the dots, whose lengths represent the velocities between positions. Stacked dots represent no movement. Hollow dots represent instantaneous change in direction x+ x+ ...
... sequence just above or below an arrow representing the x-axis and the positive direction. Arrows (vectors) are added between the dots, whose lengths represent the velocities between positions. Stacked dots represent no movement. Hollow dots represent instantaneous change in direction x+ x+ ...