chapter 5
... Any reference frame that moves with constant velocity relative to an inertial frame is itself an inertial frame. If you accelerate relative to an object in an inertial frame, you are observing the object from a non-inertial reference frame. A reference frame that moves with constant velocity relativ ...
... Any reference frame that moves with constant velocity relative to an inertial frame is itself an inertial frame. If you accelerate relative to an object in an inertial frame, you are observing the object from a non-inertial reference frame. A reference frame that moves with constant velocity relativ ...
IS 1 Motion Unit
... 1. Know that there are four fundamental forces in nature: gravitation, electromagnetism, weak nuclear force, and strong nuclear force. 2. Know that every object exerts gravitational force on every other object, and how this force depends on the masses of the objects and the distance between them. 3. ...
... 1. Know that there are four fundamental forces in nature: gravitation, electromagnetism, weak nuclear force, and strong nuclear force. 2. Know that every object exerts gravitational force on every other object, and how this force depends on the masses of the objects and the distance between them. 3. ...
Newton`s Third Law - K
... will go”. Be careful about this! It is not accurate. What the person means to say is that, “The more force you add the greater the rate at which the object speeds up.” Force is related to acceleration. Zero net force is related to constant velocity! ...
... will go”. Be careful about this! It is not accurate. What the person means to say is that, “The more force you add the greater the rate at which the object speeds up.” Force is related to acceleration. Zero net force is related to constant velocity! ...
Electrostatics worksheet
... a pair of charged bodies change when their separation is a) doubled? b) tripled? c) cut in half? d) By how much does the electric force between a pair of charged bodies change when each charge is tripled? 13. The most common isotope of hydrogen contains a proton and an electron separated by about 5. ...
... a pair of charged bodies change when their separation is a) doubled? b) tripled? c) cut in half? d) By how much does the electric force between a pair of charged bodies change when each charge is tripled? 13. The most common isotope of hydrogen contains a proton and an electron separated by about 5. ...
Conservative Forces and Potential Energy
... initial and final positions of the object and is independent of the path taken between those positions. Gravity is one such conservative force. Near Earth’s surface, the work done by gravity on an object of mass m depends only on the change in the object’s height h. In the case of conservative force ...
... initial and final positions of the object and is independent of the path taken between those positions. Gravity is one such conservative force. Near Earth’s surface, the work done by gravity on an object of mass m depends only on the change in the object’s height h. In the case of conservative force ...
Newton`s Laws…Conceptually
... 9. When you compress a sponge, which quantity changes: mass, inertia, volume, or weight? 10. What is the cause of friction, and in what direction does it act with respect to the motion of a sliding object? 11. All other things being equal, why does a heavy skydiver have a terminal speed greater than ...
... 9. When you compress a sponge, which quantity changes: mass, inertia, volume, or weight? 10. What is the cause of friction, and in what direction does it act with respect to the motion of a sliding object? 11. All other things being equal, why does a heavy skydiver have a terminal speed greater than ...
Work, Power, & Efficiency
... dealt with is the force of gravity. • So we should be able to compute the work done on an object as it rises and falls… • So lets look at a particle-like tomato of mass m that is thrown upward with an initial velocity v0. • As the tomato rises, work is done on the tomato by the force of ...
... dealt with is the force of gravity. • So we should be able to compute the work done on an object as it rises and falls… • So lets look at a particle-like tomato of mass m that is thrown upward with an initial velocity v0. • As the tomato rises, work is done on the tomato by the force of ...
chapter6
... The medium exerts a resistive force, R , on an object moving through the medium The magnitude of R depends on the medium The direction of R is opposite the direction of motion of the object relative to the medium R nearly always increases with increasing speed ...
... The medium exerts a resistive force, R , on an object moving through the medium The magnitude of R depends on the medium The direction of R is opposite the direction of motion of the object relative to the medium R nearly always increases with increasing speed ...
Chapter 12 Notepacket
... Aristotle’s time. It took about 2000 years to develop the modern understanding of the relationships between force and motion. Aristotle Aristotle made scientific discoveries through careful _______________________ and logical reasoning. Aristotle incorrectly proposed that force is required to keep a ...
... Aristotle’s time. It took about 2000 years to develop the modern understanding of the relationships between force and motion. Aristotle Aristotle made scientific discoveries through careful _______________________ and logical reasoning. Aristotle incorrectly proposed that force is required to keep a ...
SC81 Physics Curriculum Map 2010/2011 Revised 7/29/2010
... circular motion. 2. Calculate the magnitude of centripetal force and centripetal acceleration for an object in circular motion. S5 C2 PO 11 1. Predict how the force will change between two masses when the distance between them increases or decreases. Predict how the force will change between two mas ...
... circular motion. 2. Calculate the magnitude of centripetal force and centripetal acceleration for an object in circular motion. S5 C2 PO 11 1. Predict how the force will change between two masses when the distance between them increases or decreases. Predict how the force will change between two mas ...
Chapter 05 Solutions
... simultaneously push backward against the seat. 9. When the ball exerts a force on the floor, the floor exerts an equal and opposite force on the ball—hence bouncing. The force of the floor on the ball provides the bounce. 10. Action; your foot against the ball. Reaction; the ball against your foot. ...
... simultaneously push backward against the seat. 9. When the ball exerts a force on the floor, the floor exerts an equal and opposite force on the ball—hence bouncing. The force of the floor on the ball provides the bounce. 10. Action; your foot against the ball. Reaction; the ball against your foot. ...
