Dynamics
... kinematic properties of object. We indirectly control position, velocity, and acceleration by exerting forces and torques Current position f ...
... kinematic properties of object. We indirectly control position, velocity, and acceleration by exerting forces and torques Current position f ...
(field forces: magnetic force, gravitational force).
... The weight of a body is the gravitational force with which the Earth attracts the body. Weight (a vector quantity) is different from mass (a scalar quantity). The weight of a body varies with its location near the Earth (or other astronomical body), whereas its mass is the same everywhere in the uni ...
... The weight of a body is the gravitational force with which the Earth attracts the body. Weight (a vector quantity) is different from mass (a scalar quantity). The weight of a body varies with its location near the Earth (or other astronomical body), whereas its mass is the same everywhere in the uni ...
Exploring Motion Introduction
... Exploring Motion Introduction Newton’s three laws of motion describe the interaction of forces that control movement. The first law states that a body in motion will remain in motion unless acted upon by an unbalanced force. The same is true for a body at rest. The second law predicts that when an u ...
... Exploring Motion Introduction Newton’s three laws of motion describe the interaction of forces that control movement. The first law states that a body in motion will remain in motion unless acted upon by an unbalanced force. The same is true for a body at rest. The second law predicts that when an u ...
Motion - Cloudfront.net
... 1. Balanced Force – forces on an object that are equal in size and opposite in direction The net force = 0 2. Unbalanced Force – forces on an object that are unequal in size and opposite in direction The net force = the larger force ...
... 1. Balanced Force – forces on an object that are equal in size and opposite in direction The net force = 0 2. Unbalanced Force – forces on an object that are unequal in size and opposite in direction The net force = the larger force ...
The Nature of Force
... Whether an object is moving or at rest, every object resists any change to its motion. This resistance is called inertia. Inertia is the tendency of an object to resist change in its motion. ...
... Whether an object is moving or at rest, every object resists any change to its motion. This resistance is called inertia. Inertia is the tendency of an object to resist change in its motion. ...
Newton`s Laws
... motion in a straight line at constant speed, unless compelled to change that state by forces exerted on it. Also called Law of Inertia: things move according to their own inertia Things keep on doing what they are doing Examples: Hockey puck on ice, rolling ball, ball in space ...
... motion in a straight line at constant speed, unless compelled to change that state by forces exerted on it. Also called Law of Inertia: things move according to their own inertia Things keep on doing what they are doing Examples: Hockey puck on ice, rolling ball, ball in space ...
Announcements
... for him to accurately measure; he needed to slow them down l After conducting the measurements, he then performed a gedanken ◆ what would happen if there were no friction and no air resistance? ◆ the ball would keep rolling forever at a constant velocity ...
... for him to accurately measure; he needed to slow them down l After conducting the measurements, he then performed a gedanken ◆ what would happen if there were no friction and no air resistance? ◆ the ball would keep rolling forever at a constant velocity ...
