forces
... always be ________, which resists the object’s motion in the opposite direction of the net force. Also, on any planet, there will also be _________ which pulls the object down towards the center of the planet. ...
... always be ________, which resists the object’s motion in the opposite direction of the net force. Also, on any planet, there will also be _________ which pulls the object down towards the center of the planet. ...
Benchmark 1 Notes
... Free body diagrams- Used to show the relative magnitude and direction of all forces acting on an object using vectors 4 common forces Gravity: points downward, attraction of an object to earth Normal force: counteracts gravity, points upward Important: Gravity=Normal force. ALWAYS! Fn ...
... Free body diagrams- Used to show the relative magnitude and direction of all forces acting on an object using vectors 4 common forces Gravity: points downward, attraction of an object to earth Normal force: counteracts gravity, points upward Important: Gravity=Normal force. ALWAYS! Fn ...
Bell Work 2/23/10
... Newton’s First Law of Motion An object at rest remains at rest, and an object in motion remains in motion at a constant speed and in a straight line unless acted on by an unbalanced force. ...
... Newton’s First Law of Motion An object at rest remains at rest, and an object in motion remains in motion at a constant speed and in a straight line unless acted on by an unbalanced force. ...
How much force is required to inflate a high pressure
... During your travels through deep space you discover a new solar system. You land on the outermost planet and determine that the acceleration due to gravity is 2.7 m/s^2. If your mass back on Earth is 72 kg, what force would you exert on a scale in pounds while standing on the planet's surface? The ...
... During your travels through deep space you discover a new solar system. You land on the outermost planet and determine that the acceleration due to gravity is 2.7 m/s^2. If your mass back on Earth is 72 kg, what force would you exert on a scale in pounds while standing on the planet's surface? The ...
Forces
... in the direction toward the center of motion – centripetal acceleration then, is the acceleration of an object toward the center of a curved or circular path – acceleration occurs during a curve because the direction is changing therefore making velocity change – example: centripetal force (friction ...
... in the direction toward the center of motion – centripetal acceleration then, is the acceleration of an object toward the center of a curved or circular path – acceleration occurs during a curve because the direction is changing therefore making velocity change – example: centripetal force (friction ...
Newton`s Laws of Motion
... golf ball will sit on the tee until acted upon by an outside force. Once hit, it will travel until fluid friction and gravity slow it down. IF…their was no atmosphere or gravity to slow it down it would continue on forever in the direction it was hit. ...
... golf ball will sit on the tee until acted upon by an outside force. Once hit, it will travel until fluid friction and gravity slow it down. IF…their was no atmosphere or gravity to slow it down it would continue on forever in the direction it was hit. ...
Work-Kinetic Energy Theorem (WKET)
... The forces acting on a system can be categorized as Conservative or Nonconservative. Conservative forces are those for which the work done by the force between an initial position and a final position is independent of the path taken and depends only on the initial and final positions, e.g gravitati ...
... The forces acting on a system can be categorized as Conservative or Nonconservative. Conservative forces are those for which the work done by the force between an initial position and a final position is independent of the path taken and depends only on the initial and final positions, e.g gravitati ...
Motion and Forces BLACKOUT AK
... describes that an object that is not moving will stay that way and an object that is moving will stay that way until an outside force changes the motion. 13. Describe Newton’s 3rd Law of Motion. Newton’s third Law of Motion says that for every action that happens a reaction of equal and opposite val ...
... describes that an object that is not moving will stay that way and an object that is moving will stay that way until an outside force changes the motion. 13. Describe Newton’s 3rd Law of Motion. Newton’s third Law of Motion says that for every action that happens a reaction of equal and opposite val ...
Document
... weight and therefore more speed so the heavier object accelerates longer and has a greater speed and greater terminal velocity. ...
... weight and therefore more speed so the heavier object accelerates longer and has a greater speed and greater terminal velocity. ...
1 st Law
... weights from the Leaning Tower of Pisa Found that all objects fall at the same rate if you can account for air resistance ...
... weights from the Leaning Tower of Pisa Found that all objects fall at the same rate if you can account for air resistance ...
Force Diagrams
... • AKA free-body diagram. • Shows all forces acting on an object. – If you can’t draw, don’t worry! – Usu. represent objects as boxes or circles for simplicity. ...
... • AKA free-body diagram. • Shows all forces acting on an object. – If you can’t draw, don’t worry! – Usu. represent objects as boxes or circles for simplicity. ...
