Student Notes
... a. The force of gravity is acting between every pair of objects in the universe b. The greater the mass of the objects the greater the force of gravity between them c. The greater the distance between objects, the smaller the force of gravity between them ...
... a. The force of gravity is acting between every pair of objects in the universe b. The greater the mass of the objects the greater the force of gravity between them c. The greater the distance between objects, the smaller the force of gravity between them ...
Chapter 5
... motion: F = maG G 2. The expression F = maG is a vector equation, so we can write it as three component equations. 3. Identify the forces acting on each of the bodies and draw free body diagrams. ...
... motion: F = maG G 2. The expression F = maG is a vector equation, so we can write it as three component equations. 3. Identify the forces acting on each of the bodies and draw free body diagrams. ...
1 - sciencewithskinner
... 9. Does the friction force cancel your applied 200 N-force, thus making acceleration impossible? Yes, the net F = 0 since the refrigerator is in dynamic equilibrium. 10. Could the friction force be defined as the reaction force to your applied force? No! the friction force is the force of the floor ...
... 9. Does the friction force cancel your applied 200 N-force, thus making acceleration impossible? Yes, the net F = 0 since the refrigerator is in dynamic equilibrium. 10. Could the friction force be defined as the reaction force to your applied force? No! the friction force is the force of the floor ...
Intro to Physics - Fort Thomas Independent Schools
... How are forces and Newton’s Laws of motion used to describe motion? Unit Learning Targets (I can… Section 1 1. Explain the characteristics of force 2. Identify the basic forces (Weight, normal force and friction, spring force, tension, air resistance, applied force) 3. Draw free-body diagrams showin ...
... How are forces and Newton’s Laws of motion used to describe motion? Unit Learning Targets (I can… Section 1 1. Explain the characteristics of force 2. Identify the basic forces (Weight, normal force and friction, spring force, tension, air resistance, applied force) 3. Draw free-body diagrams showin ...
momentum
... -1686, Sir Issac Newton publishes his book Principia in which he describes 3 laws relating forces to motion of objects -did not discover all 3 laws himself, but combined previous discoveries by other scientists and explained them in a way that people could understand -as a result, the 3 laws are com ...
... -1686, Sir Issac Newton publishes his book Principia in which he describes 3 laws relating forces to motion of objects -did not discover all 3 laws himself, but combined previous discoveries by other scientists and explained them in a way that people could understand -as a result, the 3 laws are com ...
dimensions
... On our ride, energy conservation is the main principle that keeps the ride working. Since we have no access to electricity or other forms of energy generation, we use gravitational potential energy to keep the ride working. Since the GPE transfers into KE as the ball moves down the slope and energy ...
... On our ride, energy conservation is the main principle that keeps the ride working. Since we have no access to electricity or other forms of energy generation, we use gravitational potential energy to keep the ride working. Since the GPE transfers into KE as the ball moves down the slope and energy ...
More work and energy notes to help
... Friction is a non-conservative force and the work done in moving an object against a non-conservative force depends on the path. For example, the work done in sliding a box of books against friction from one end of a room to the other depends on the path taken. ...
... Friction is a non-conservative force and the work done in moving an object against a non-conservative force depends on the path. For example, the work done in sliding a box of books against friction from one end of a room to the other depends on the path taken. ...
Answer - Plain Local Schools
... vectors. Therefore, the direction of the acceleration, or the change in velocity, will be in the same direction as the net force. You can also look at this equation from the opposite perspective. A net force applied to an object changes an object’s velocity (produces an acceleration), and is frequen ...
... vectors. Therefore, the direction of the acceleration, or the change in velocity, will be in the same direction as the net force. You can also look at this equation from the opposite perspective. A net force applied to an object changes an object’s velocity (produces an acceleration), and is frequen ...
force and motion
... Is a single force that represents the combined effect of 2 or more forces in magnitude and direction. ...
... Is a single force that represents the combined effect of 2 or more forces in magnitude and direction. ...
Chapter 6: Energy and Oscillations
... 7. A box is moved 10 m across a smooth floor by a force making a downward angle with the floor, so that there is effectively a 10 N force acting parallel to the floor in the direction of motion and a 5 N force acting perpendicular to the floor. The work done is A. 150 J. B. 100 J. C. 50 J. D. 10 J. ...
... 7. A box is moved 10 m across a smooth floor by a force making a downward angle with the floor, so that there is effectively a 10 N force acting parallel to the floor in the direction of motion and a 5 N force acting perpendicular to the floor. The work done is A. 150 J. B. 100 J. C. 50 J. D. 10 J. ...
Chapter One Notes
... Net force ≠ zero Causes an object to change its motion Many unbalanced forces causing motion: video ...
... Net force ≠ zero Causes an object to change its motion Many unbalanced forces causing motion: video ...
