Transformation Equation for Center-of-Mass Work
... where the impulse I = ! Fidt = ! F"idt is frame invariant since A = 0 in Eq. (5). In contrast, the work is only frame invariant if the impulse (or at least its component in the direction of the relative velocity of the frames) is zero. For example, if I drop a stone from rest, the gravitational work ...
... where the impulse I = ! Fidt = ! F"idt is frame invariant since A = 0 in Eq. (5). In contrast, the work is only frame invariant if the impulse (or at least its component in the direction of the relative velocity of the frames) is zero. For example, if I drop a stone from rest, the gravitational work ...
Does the Speed of Light Have to be Constant?
... preferred frame of sorts or in the case of external curvature effects encountered under General Relativity. An absolute frame of reference allows for motion faster than light if we were to admit one within our cosmological modeling. We then need to invoke a generalization of SR for superluminal velo ...
... preferred frame of sorts or in the case of external curvature effects encountered under General Relativity. An absolute frame of reference allows for motion faster than light if we were to admit one within our cosmological modeling. We then need to invoke a generalization of SR for superluminal velo ...
Frames of Reference
... •There is no experiment that can tell you if you are moving at a constant velocity! •All frames are equivalent. ...
... •There is no experiment that can tell you if you are moving at a constant velocity! •All frames are equivalent. ...
Non-Inertial Reference Frames
... (A) there is no gravitational force from the Earth acting on her. (B) the gravitational pull of the Moon has canceled the pull of the Earth on her. (C) she is in free fall along with the Space Station and its contents. (D) at an orbit of 200 miles above the Earth, the gravitational force of the Eart ...
... (A) there is no gravitational force from the Earth acting on her. (B) the gravitational pull of the Moon has canceled the pull of the Earth on her. (C) she is in free fall along with the Space Station and its contents. (D) at an orbit of 200 miles above the Earth, the gravitational force of the Eart ...
Prezentacja programu PowerPoint
... particle. In many cases we know the force from experience and need to know the path of a particle. In this case one solves the so called equation of motion ...
... particle. In many cases we know the force from experience and need to know the path of a particle. In this case one solves the so called equation of motion ...
Newton and Leibniz – Absolute and Relative Motion
... Newton and Leibniz – Absolute and Relative Motion 1. Newtonian relativity. Newton’s second law of motion is claimed to hold for true motions in absolute space. But not only for these true motions, but also for apparent motions relative to an inertial frame. An inertial frame is one that is either at ...
... Newton and Leibniz – Absolute and Relative Motion 1. Newtonian relativity. Newton’s second law of motion is claimed to hold for true motions in absolute space. But not only for these true motions, but also for apparent motions relative to an inertial frame. An inertial frame is one that is either at ...
QUIZ 9 Mark____
... velocity for the boat, which in the ships reference frame is pointing from North to South and has a magnitude of 10 m/s. How much is the speed of the boat as measured by an observer who is in rest relative to the Earth? (30 p) ...
... velocity for the boat, which in the ships reference frame is pointing from North to South and has a magnitude of 10 m/s. How much is the speed of the boat as measured by an observer who is in rest relative to the Earth? (30 p) ...