Class #13 - Department of Physics | Oregon State University
... Oregon State University PH 211, Class #13 ...
... Oregon State University PH 211, Class #13 ...
Document
... Its velocity is constant, but its acceleration is changing. Its acceleration is constant, but its velocity is changing. Both its velocity and acceleration are changing. Its velocity and acceleration remain constant. ...
... Its velocity is constant, but its acceleration is changing. Its acceleration is constant, but its velocity is changing. Both its velocity and acceleration are changing. Its velocity and acceleration remain constant. ...
Linking Asteroids and Meteorites through Reflectance
... around the Sun? • Inertia - Resistance of any physical object to a change in its state of motion or rest • Gravity – Attractive Force • The inertia of each planet is offset by the sun's gravity • The result is stable orbits around the sun ...
... around the Sun? • Inertia - Resistance of any physical object to a change in its state of motion or rest • Gravity – Attractive Force • The inertia of each planet is offset by the sun's gravity • The result is stable orbits around the sun ...
When astronauts are in the space shuttle
... Applications of momentum conservation law Collisions are such interactions of objects in which the interaction per se can be separated from the initial and final state. Only initial and final states are of interest. If two (several) particles collide, they are all parts of one system, so their ...
... Applications of momentum conservation law Collisions are such interactions of objects in which the interaction per se can be separated from the initial and final state. Only initial and final states are of interest. If two (several) particles collide, they are all parts of one system, so their ...
Newton and Friction
... 1) An object in motion will remain in motion unless an unbalanced force acts on it. If an object is moving at constant velocity, there is no acceleration or net force. Mass and inertia are proportional, the higher the mass the higher the inertia regardless of velocity. 2) Net Force = (mass)(accelera ...
... 1) An object in motion will remain in motion unless an unbalanced force acts on it. If an object is moving at constant velocity, there is no acceleration or net force. Mass and inertia are proportional, the higher the mass the higher the inertia regardless of velocity. 2) Net Force = (mass)(accelera ...
Coriolis Force
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
... moving objects in a rotating frame of reference It deviates objects to the right (left) for anti-clockwise (clockwise) rotation The deviation vanishes at the equator and reaches its maximum at the poles ...
Chapter 3
... • To every action force there is an equal and opposite reaction force. – action-reaction forces act on different objects and differ from balanced forces – example= rocket propulsion ...
... • To every action force there is an equal and opposite reaction force. – action-reaction forces act on different objects and differ from balanced forces – example= rocket propulsion ...
Force, Net Force, and Inertia
... Types of Forces • Action-at-a-Distance, any force that does not need the objects touching – Gravity – Electro-Magnetic – Weak Nuclear – Strong Nuclear We will only deal with the first two ...
... Types of Forces • Action-at-a-Distance, any force that does not need the objects touching – Gravity – Electro-Magnetic – Weak Nuclear – Strong Nuclear We will only deal with the first two ...
