Chapter 4 Newton`s Laws of Motion
... for any given setup. Thus the force exerted on the car has the same magnitude as the force car exerted on you. This is true when the car is moving with or without acceleration. On the other hand the force that needs to be applied to start moving is (usually) large than the force that needs to be app ...
... for any given setup. Thus the force exerted on the car has the same magnitude as the force car exerted on you. This is true when the car is moving with or without acceleration. On the other hand the force that needs to be applied to start moving is (usually) large than the force that needs to be app ...
Worksheet 4
... In “One-D Motion” we get quantitative about forces and accelerations for the first time. We will limit our attention to forces and motions in one dimension only. You will apply a force of adjustable magnitude to a body of adjustable mass. You will examine graphs of the position, velocity, and accele ...
... In “One-D Motion” we get quantitative about forces and accelerations for the first time. We will limit our attention to forces and motions in one dimension only. You will apply a force of adjustable magnitude to a body of adjustable mass. You will examine graphs of the position, velocity, and accele ...
Wednesday, October 10, 2007
... Weight of an object with mass m is mg. Using the force exerting on a particle of mass m on the surface of the Earth, one can obtain What would the gravitational acceleration be if the object is at an altitude h above the surface of the Earth? ...
... Weight of an object with mass m is mg. Using the force exerting on a particle of mass m on the surface of the Earth, one can obtain What would the gravitational acceleration be if the object is at an altitude h above the surface of the Earth? ...
Version B
... An inertial reference frame is one in which Newton’s first law is valid. This excludes rotating and accelerating frames. How can we tell if we are in an inertial reference frame? By checking to see if Newton’s first law holds! ...
... An inertial reference frame is one in which Newton’s first law is valid. This excludes rotating and accelerating frames. How can we tell if we are in an inertial reference frame? By checking to see if Newton’s first law holds! ...
Unit 2 Forces Date ______ Hour ______ Practice Assessment Fill i
... ________________________1. Forces that are opposite and equal are called ________________________2. The force that opposes the motion of an object is called ________________________3. The type of friction that exists for a shark swimming in the ocean is ________________________4. The property of mat ...
... ________________________1. Forces that are opposite and equal are called ________________________2. The force that opposes the motion of an object is called ________________________3. The type of friction that exists for a shark swimming in the ocean is ________________________4. The property of mat ...
ROTATION
... and KE of rotation which means that the translational motion takes only a fraction of the total KE. (The value of that fraction depends on the shape of the body, but not its size.) At a given distance down the slope, the speed of the centre of gravity must be less for the rolling object. • A sphere ...
... and KE of rotation which means that the translational motion takes only a fraction of the total KE. (The value of that fraction depends on the shape of the body, but not its size.) At a given distance down the slope, the speed of the centre of gravity must be less for the rolling object. • A sphere ...
Slides - Sapling Learning
... • Newton’s second law of motion – states that the acceleration (a) of an object is directly related to the net force on the object (Fnet) and inversely related to the mass of the object (m) ...
... • Newton’s second law of motion – states that the acceleration (a) of an object is directly related to the net force on the object (Fnet) and inversely related to the mass of the object (m) ...
Newton`s First Law
... at rest in one frame of reference, it will appear to be moving in a straight line to an observer in a reference frame which is moving by the object. There is no way to say which reference frame is "special", so all constant velocity reference frames must be equivalent. ...
... at rest in one frame of reference, it will appear to be moving in a straight line to an observer in a reference frame which is moving by the object. There is no way to say which reference frame is "special", so all constant velocity reference frames must be equivalent. ...
11-2 Vector Cross Product
... 11-1 Angular Momentum—Objects Rotating About a Fixed Axis The rotational analog of linear momentum is angular momentum, L: Then the rotational analog of Newton’s second law is: This form of Newton’s second law is valid even if I is not constant. ...
... 11-1 Angular Momentum—Objects Rotating About a Fixed Axis The rotational analog of linear momentum is angular momentum, L: Then the rotational analog of Newton’s second law is: This form of Newton’s second law is valid even if I is not constant. ...
Relative Motion
... An object subject to no external forces moves with a constant velocity if viewed from an inertial reference frame. – If no forces act, there is no acceleration. ...
... An object subject to no external forces moves with a constant velocity if viewed from an inertial reference frame. – If no forces act, there is no acceleration. ...
