Unit 3 Jeopardy - Motion and Newton
... type of acceleration do you have going up the hill, then down? ...
... type of acceleration do you have going up the hill, then down? ...
Circular Motion - Cloudfront.net
... and is the distance between the CENTERS OF MASS of the 2 objects. We us the symbol “r” as it symbolizes the radius. Gravitation is closely related to circular motion as you will ...
... and is the distance between the CENTERS OF MASS of the 2 objects. We us the symbol “r” as it symbolizes the radius. Gravitation is closely related to circular motion as you will ...
I. Newton's Laws of Motion
... An object at rest will remain at rest and an object in motion will continue moving at a constant velocity unless acted upon by a net force. ...
... An object at rest will remain at rest and an object in motion will continue moving at a constant velocity unless acted upon by a net force. ...
1020 Test review
... – You do work on the cart – Your chemical potential energy decreases – The cart’s gravitational potential energy increases ...
... – You do work on the cart – Your chemical potential energy decreases – The cart’s gravitational potential energy increases ...
Insert the title here
... acceleration toward Earth is equal to g, the acceleration due to gravity. What is the force on Earth due to the ball and what is Earth’s resulting acceleration? Earth’s mass is 6.0 x 10 24 kg. ...
... acceleration toward Earth is equal to g, the acceleration due to gravity. What is the force on Earth due to the ball and what is Earth’s resulting acceleration? Earth’s mass is 6.0 x 10 24 kg. ...
Section 1
... Newton. The third one deals with what happens when an object exerts a force on another object. For instance, consider your fist smashing into a thing wall. It might be possible that you punch a hole in the wall. Yet it is also possible that your fist is in a lot of pain-if not outright broken--from ...
... Newton. The third one deals with what happens when an object exerts a force on another object. For instance, consider your fist smashing into a thing wall. It might be possible that you punch a hole in the wall. Yet it is also possible that your fist is in a lot of pain-if not outright broken--from ...
MP 2 Quarterly Review Sheet Answers
... A. less than zero B. between zero and Mg (although it is moving up it is accelerating DOWN) C. equal to Mg D. greater than Mg E. zero 9. A box is being pushed by a constant force along a horizontal surface. If the object’s velocity is constant, we can infer that there is _______ acting on the box A. ...
... A. less than zero B. between zero and Mg (although it is moving up it is accelerating DOWN) C. equal to Mg D. greater than Mg E. zero 9. A box is being pushed by a constant force along a horizontal surface. If the object’s velocity is constant, we can infer that there is _______ acting on the box A. ...
Forces
... If the mass of a helicopter is 4,500 kg. and the net force on it is 18,000 N, what is the helicopter’s acceleration? ...
... If the mass of a helicopter is 4,500 kg. and the net force on it is 18,000 N, what is the helicopter’s acceleration? ...
Dynamics of Uniform Circular Motion
... comes from any number of forces. As long as the force is directed toward the center of an arc or circle, it is considered a centripetal force. These equations apply to manmade earth satellites or to natural satellites like the moon. It also applies to circular orbits about any astronomical object. R ...
... comes from any number of forces. As long as the force is directed toward the center of an arc or circle, it is considered a centripetal force. These equations apply to manmade earth satellites or to natural satellites like the moon. It also applies to circular orbits about any astronomical object. R ...
Situation Diagram Free-body diagram
... The object does not necessarily have to moving in one direction or another, but the directions of the force vectors will change accordingly. ...
... The object does not necessarily have to moving in one direction or another, but the directions of the force vectors will change accordingly. ...
force
... Contact forces: the force exerted when two physical objects come in direct contact with each other. Field forces: forces that do not involve physical contact between two objects. o __________________________________________________________________ o ______________________________________________ ...
... Contact forces: the force exerted when two physical objects come in direct contact with each other. Field forces: forces that do not involve physical contact between two objects. o __________________________________________________________________ o ______________________________________________ ...
PHYS 307 LECTURE NOTES, Daniel W. Koon, St. Lawrence Univ.
... latitude and hurtling through space around the Sun, which is moving at 43000 mph relative to our galaxy, which is speeding at 600,000 mph relative to nearby galaxies. Now, because the rotation of the earth about its axis and its revolution around the sun are circular motions, the Earth is not strict ...
... latitude and hurtling through space around the Sun, which is moving at 43000 mph relative to our galaxy, which is speeding at 600,000 mph relative to nearby galaxies. Now, because the rotation of the earth about its axis and its revolution around the sun are circular motions, the Earth is not strict ...
Newton`s 1st Law of Motion
... • Changing Direction of an objects motion requires force even if the object maintains a constant speed. ...
... • Changing Direction of an objects motion requires force even if the object maintains a constant speed. ...
Newton`s Second Law File
... License. This license gives you permission to copy, share and/or adapt these works, with appropriate attribution, under an identical, similar, or compatible license. See http://creativecommons.org/licenses/by-sa/3.0/ for more information. ...
... License. This license gives you permission to copy, share and/or adapt these works, with appropriate attribution, under an identical, similar, or compatible license. See http://creativecommons.org/licenses/by-sa/3.0/ for more information. ...
Slide 1
... 6-3 Translational Equilibrium When an object is in translational equilibrium, the net force on it is zero: ...
... 6-3 Translational Equilibrium When an object is in translational equilibrium, the net force on it is zero: ...
Additional Midterm Review Questions
... (a) the mass of an object (d) the quantity that keeps an object (b) the inertia of an object. moving. (c) the quantity that causes displacement. (e) the quantity that changes the velocity of an object. 24. Which one of the following terms is used to indicate the natural tendency of an object to rema ...
... (a) the mass of an object (d) the quantity that keeps an object (b) the inertia of an object. moving. (c) the quantity that causes displacement. (e) the quantity that changes the velocity of an object. 24. Which one of the following terms is used to indicate the natural tendency of an object to rema ...