Forces of Motion
... http://wsgfl2.westsussex.gov.uk/aplaws/intergames/sec_science/ParachuteGame.swf ...
... http://wsgfl2.westsussex.gov.uk/aplaws/intergames/sec_science/ParachuteGame.swf ...
Physics 102 Introduction to Physics
... The action and reaction forces are equal and opposite, no matter whether the masses are the same or not! ...
... The action and reaction forces are equal and opposite, no matter whether the masses are the same or not! ...
Mathematics of Circular Motion
... Determine the following quantities. You must either show your work by identifying the equation used or provide a written response to justify your answer. ...
... Determine the following quantities. You must either show your work by identifying the equation used or provide a written response to justify your answer. ...
Measuring Motion
... Observing Motion Reference Point: Object that appears to stay in place Ex: Earth’s surface You Landscape ...
... Observing Motion Reference Point: Object that appears to stay in place Ex: Earth’s surface You Landscape ...
CH11 Notes - Moline High School
... contact with each other. Usually oppose the motion of objects Can be both negative and positive -reduce friction: by adding a barrier between the two surfaces. Ex. Oil, grease, water ...
... contact with each other. Usually oppose the motion of objects Can be both negative and positive -reduce friction: by adding a barrier between the two surfaces. Ex. Oil, grease, water ...
Forces & Motion ()
... When objects move close to the speed of light, the rules of converting between frames of reference become more complicated. This is called Special Relativity, developed by Albert Einstein. We will consider the modest speed version, which is often called ‘Galilean Relativity’ after the great Renaissa ...
... When objects move close to the speed of light, the rules of converting between frames of reference become more complicated. This is called Special Relativity, developed by Albert Einstein. We will consider the modest speed version, which is often called ‘Galilean Relativity’ after the great Renaissa ...
forces_and_energy_review
... Gravity: The force of attraction between objects that is due to their mass Friction: A force that opposes motion between two surfaces that are in contact. Weight: The mass of an object with respect to gravitational pull. Speed: The distance traveled divided by the time interval during which the moti ...
... Gravity: The force of attraction between objects that is due to their mass Friction: A force that opposes motion between two surfaces that are in contact. Weight: The mass of an object with respect to gravitational pull. Speed: The distance traveled divided by the time interval during which the moti ...
Newton`s Laws
... Newton’s 2nd Law of Motion • The greater the acceleration of an object, the greater the force required to change its motion. ...
... Newton’s 2nd Law of Motion • The greater the acceleration of an object, the greater the force required to change its motion. ...
Newton`s Second Law
... string is attached to the trolley at one end passed through a pulley and attached to a bucket at other end.The distance of the light gate from each other was set to 50 cm. 2. A weight of 5 gram is attached to the trolley to act as a force. The counter is switched on and the trolley is placed just be ...
... string is attached to the trolley at one end passed through a pulley and attached to a bucket at other end.The distance of the light gate from each other was set to 50 cm. 2. A weight of 5 gram is attached to the trolley to act as a force. The counter is switched on and the trolley is placed just be ...
Centripetal Force
... at a constant speed. Its direction changes as it goes around the corner, so even though its speed is constant, it must be accelerating. This acceleration must be at right angles (perpendicular) to the direction of movement as it turns the corner, otherwise its speed could not be constant. ...
... at a constant speed. Its direction changes as it goes around the corner, so even though its speed is constant, it must be accelerating. This acceleration must be at right angles (perpendicular) to the direction of movement as it turns the corner, otherwise its speed could not be constant. ...
THINGSYOUNEEDTOKNOWFORCE
... Forces acting in same direction are adding, forces acting in opposite directions are subtracted. 5.1lMASS AND WEIGHT ARE DIFFERENT!-KNOW THE DIFFS! See full page hand out given to you. 5.1m- Spring Force is a good linear/direct relationship, often tested in graph form. Watch out for axis labels thou ...
... Forces acting in same direction are adding, forces acting in opposite directions are subtracted. 5.1lMASS AND WEIGHT ARE DIFFERENT!-KNOW THE DIFFS! See full page hand out given to you. 5.1m- Spring Force is a good linear/direct relationship, often tested in graph form. Watch out for axis labels thou ...
Unit 8 Review Answer Key
... 11. Explain what a centripetal force is and what is a centrifugal force? Centripetal is a label put on the net force on an object that causes it to move in a circle. Centrifugal is an imaginary force that makes you feel like you are being pulled out of the circle but it is a result of your inertia ...
... 11. Explain what a centripetal force is and what is a centrifugal force? Centripetal is a label put on the net force on an object that causes it to move in a circle. Centrifugal is an imaginary force that makes you feel like you are being pulled out of the circle but it is a result of your inertia ...
3. forces
... it is the force required to deform the spring a unit distance - springs can be used to model situations in which forces depend on displacements (e.g., the force necessary to bend the steel beam) | F | k ...
... it is the force required to deform the spring a unit distance - springs can be used to model situations in which forces depend on displacements (e.g., the force necessary to bend the steel beam) | F | k ...
Newton`s Laws Notetakers
... A body at rest will remain at rest, a body in motion will remain in motion, traveling with a constant velocity in a straight line, unless an unbalanced force acts on it. INERTIA = a measure of a body’s ability to resist changes in velocity. (the greater the mass of a body, the less it will accelerat ...
... A body at rest will remain at rest, a body in motion will remain in motion, traveling with a constant velocity in a straight line, unless an unbalanced force acts on it. INERTIA = a measure of a body’s ability to resist changes in velocity. (the greater the mass of a body, the less it will accelerat ...
