The student will demonstrate an understanding of motion, forces
... True or False • The acceleration of an object does NOT depend on its mass. • False. ...
... True or False • The acceleration of an object does NOT depend on its mass. • False. ...
Centripetal Force
... constant, it must be accelerating. This acceleration must be at right angles (perpendicular) to the direction of movement as it turns the corner, otherwise its speed could not be constant. ...
... constant, it must be accelerating. This acceleration must be at right angles (perpendicular) to the direction of movement as it turns the corner, otherwise its speed could not be constant. ...
multiple-choice questions (II) for homework on 9/28
... glued together and the same force F acts on this combination, what is the resulting acceleration? ...
... glued together and the same force F acts on this combination, what is the resulting acceleration? ...
Day - Hamelinck
... Summary: * If the net force is not zero, the object will accelerate in the direction of the net force. * The greater the force, the greater the acceleration (a linear relationship). Therefore, a F net Relating Acceleration and Mass If you apply the same force to objects of different masses, how do ...
... Summary: * If the net force is not zero, the object will accelerate in the direction of the net force. * The greater the force, the greater the acceleration (a linear relationship). Therefore, a F net Relating Acceleration and Mass If you apply the same force to objects of different masses, how do ...
Circular motion
... Rotational motion refers to the motion of a body or system that spins about an axis. The axis of rotation is the line about which the rotation occurs. Circular motion refers to the motion of a particular point on an object that is undergoing rotational motion or a single object traveling in a circ ...
... Rotational motion refers to the motion of a body or system that spins about an axis. The axis of rotation is the line about which the rotation occurs. Circular motion refers to the motion of a particular point on an object that is undergoing rotational motion or a single object traveling in a circ ...
Physics 111
... • Rotational quantities as vectors • Cross product revisited • Torque as a vector • Angular momentum – conceptual • Newton’s second law in angular form • Angular momentum as a vector • Angular momentum of a system of particles • Angular momentum of a rigid body about a fixed axis • Conservation of a ...
... • Rotational quantities as vectors • Cross product revisited • Torque as a vector • Angular momentum – conceptual • Newton’s second law in angular form • Angular momentum as a vector • Angular momentum of a system of particles • Angular momentum of a rigid body about a fixed axis • Conservation of a ...
Ch 2.1 and 2.2 PPT Chap 2.1 and 2.2
... Definition of Acceleration An acceleration is the rate at which velocity changes (A vector quantity.) A change in velocity requires the application of a push or pull (force). A formal treatment of force and acceleration will be given later. For now, you should know that: • The direction of acce ...
... Definition of Acceleration An acceleration is the rate at which velocity changes (A vector quantity.) A change in velocity requires the application of a push or pull (force). A formal treatment of force and acceleration will be given later. For now, you should know that: • The direction of acce ...
Chapter 6 - SFSU Physics & Astronomy
... starting to move when a force is applied. The static frictional force has a maximum value, but may take on any value from zero to the maximum, depending on what is needed to keep the sum of forces zero. ...
... starting to move when a force is applied. The static frictional force has a maximum value, but may take on any value from zero to the maximum, depending on what is needed to keep the sum of forces zero. ...
Exam 1 Solutions Kinematics and Newton’s laws of motion
... Example 5: The Effect of Speed on Centripetal Force The model airplane has a mass of 0.90 kg and moves at constant speed on a circle that is parallel to the ground. The path of the airplane and the guideline lie in the same horizontal plane because the weight of the plane is balanced by the lift gen ...
... Example 5: The Effect of Speed on Centripetal Force The model airplane has a mass of 0.90 kg and moves at constant speed on a circle that is parallel to the ground. The path of the airplane and the guideline lie in the same horizontal plane because the weight of the plane is balanced by the lift gen ...
