Stacey Carpenter
... (Keep in mind that we will learn more about the concepts of velocity, acceleration, and force later on)! Examples of NON-vectors are: distance, time, speed Vectors can be added together to get a resultant (sum) vector. For example, if two people push in the same direction on a stalled car, their f ...
... (Keep in mind that we will learn more about the concepts of velocity, acceleration, and force later on)! Examples of NON-vectors are: distance, time, speed Vectors can be added together to get a resultant (sum) vector. For example, if two people push in the same direction on a stalled car, their f ...
Force and Motion
... Speed = distance / time s = d/t Units: unit of distance (meters, inches, miles) Unit of time (seconds, minutes, hours) d S ...
... Speed = distance / time s = d/t Units: unit of distance (meters, inches, miles) Unit of time (seconds, minutes, hours) d S ...
Rotation of Rigid Bodies - wbm
... any instant, all points on a rigid object have the same angular velocity. The units of angular velocity are rad/s. Sometimes angular velocity is given in rev/s or rpm. 1 rev is 2 radians Angular speed is the magnitude of angular velocity ...
... any instant, all points on a rigid object have the same angular velocity. The units of angular velocity are rad/s. Sometimes angular velocity is given in rev/s or rpm. 1 rev is 2 radians Angular speed is the magnitude of angular velocity ...
Laws of Motion Conservation Laws Gravity
... In the absence of an applied force, an object at rest remains at rest. An object in motion remains in motion with a constant velocity. C3-04, C3-02, C3-12 © 2007 Pearson Education Inc., publishing as Pearson Addison-Wesley ...
... In the absence of an applied force, an object at rest remains at rest. An object in motion remains in motion with a constant velocity. C3-04, C3-02, C3-12 © 2007 Pearson Education Inc., publishing as Pearson Addison-Wesley ...
Exam II Difficult Problems
... • Two boxes are connected to each other as shown. The system is released from rest and the 1.00-kg box falls through a distance of 1.00 m. The surface of the table is frictionless. What is the kinetic energy of box B just before it reaches the ...
... • Two boxes are connected to each other as shown. The system is released from rest and the 1.00-kg box falls through a distance of 1.00 m. The surface of the table is frictionless. What is the kinetic energy of box B just before it reaches the ...
Dynamics Powerpoint - HRSBSTAFF Home Page
... 1. A book is at rest on a table top. Diagram the forces acting on the book. ...
... 1. A book is at rest on a table top. Diagram the forces acting on the book. ...
Chapter 6 Section 2 Newton`s Laws of Motion
... 12. Acceleration Stops at the Terminal Velocity As the speed of a falling object increases, air resistance increases. • The upward force of air resistance continues to increase until it is equal to the downward force of gravity. The object then falls at a constant velocity called the terminal veloci ...
... 12. Acceleration Stops at the Terminal Velocity As the speed of a falling object increases, air resistance increases. • The upward force of air resistance continues to increase until it is equal to the downward force of gravity. The object then falls at a constant velocity called the terminal veloci ...
9.2 Conservation of Momentum
... quantity – a quantity that remains unchanged as a system evolves. • System – a set of objects that interact with each other • Closed system – a system that does not gain or lose mass • Two types of forces can act on a system of objects ...
... quantity – a quantity that remains unchanged as a system evolves. • System – a set of objects that interact with each other • Closed system – a system that does not gain or lose mass • Two types of forces can act on a system of objects ...
Momentum - gandell
... • Momentum cannot be created or destroyed. • The amount of momentum in the universe is constant. • This means that the total momentum in the system doesn’t change. ...
... • Momentum cannot be created or destroyed. • The amount of momentum in the universe is constant. • This means that the total momentum in the system doesn’t change. ...
Circular Motion
... Tangential speed • For example, consider a pair of horses sideby-side on a carousel. • Each completes one full circle in the same time period, but the horse on the outside covers more distance than the inside horse does, so the outside horse has a greater tangential speed. ...
... Tangential speed • For example, consider a pair of horses sideby-side on a carousel. • Each completes one full circle in the same time period, but the horse on the outside covers more distance than the inside horse does, so the outside horse has a greater tangential speed. ...
You have the momentum
... Brief time, brief force small change Same force over an extended period of time greater change ...
... Brief time, brief force small change Same force over an extended period of time greater change ...
