Circular Motion
... Consider an object moving in a circle around a specific origin. The DISTANCE the object covers in ONE REVOLUTION is called the CIRCUMFERENCE. The TIME that it takes to cover this distance is called the PERIOD. ...
... Consider an object moving in a circle around a specific origin. The DISTANCE the object covers in ONE REVOLUTION is called the CIRCUMFERENCE. The TIME that it takes to cover this distance is called the PERIOD. ...
Introduction to Soft Matter Physics- Lecture 5
... Water waves are one of the oldest topics in fluid mechanics. We are going to discuss two different types of surface waves Gravitational waves and Capillary waves. Each type got its name because of the origin of its potential energy. Gravitational waves are connected to the earth gravitation potentia ...
... Water waves are one of the oldest topics in fluid mechanics. We are going to discuss two different types of surface waves Gravitational waves and Capillary waves. Each type got its name because of the origin of its potential energy. Gravitational waves are connected to the earth gravitation potentia ...
Chapter 4 Notes
... Galileo did many experiments, and he concluded that in the ideal case of _____ ____________, horizontal motion would never stop. ...
... Galileo did many experiments, and he concluded that in the ideal case of _____ ____________, horizontal motion would never stop. ...
1-1 The Scope of Physics
... reduction in speed is due to the force of friction between the runners of the sled and the ground. If there is clean snow on the ground, the force of friction will be very small; if ashes or sand have been dumped on the snow, the force of friction will be greater, and the sled will come to rest much ...
... reduction in speed is due to the force of friction between the runners of the sled and the ground. If there is clean snow on the ground, the force of friction will be very small; if ashes or sand have been dumped on the snow, the force of friction will be greater, and the sled will come to rest much ...
net force - s3.amazonaws.com
... object moves through a fluid medium, such as air or water, the fluid provides a resistance to the object’s motion. • For a falling object, when the upward force of air resistance balances the downward gravitational force, the net force on the object is zero. The object continues to move downward wit ...
... object moves through a fluid medium, such as air or water, the fluid provides a resistance to the object’s motion. • For a falling object, when the upward force of air resistance balances the downward gravitational force, the net force on the object is zero. The object continues to move downward wit ...
Photo Assessment Album
... Evaluate/Reflection – Students will write student reflections in their journals. Students will complete exit tickets to explain what they have learned. Tailor – In order to tailor instruction, I will incorporate Bloom’s Taxonomy and Gardner’s Theory of Multiple Intelligences in all of my lessons. Th ...
... Evaluate/Reflection – Students will write student reflections in their journals. Students will complete exit tickets to explain what they have learned. Tailor – In order to tailor instruction, I will incorporate Bloom’s Taxonomy and Gardner’s Theory of Multiple Intelligences in all of my lessons. Th ...
Momentum and Collisions
... Newton called the product mv the quantity of motion of the particle Newton’s Second Law can be used to relate the momentum of a particle to the resultant force acting on it dv d mv dp F ma m ...
... Newton called the product mv the quantity of motion of the particle Newton’s Second Law can be used to relate the momentum of a particle to the resultant force acting on it dv d mv dp F ma m ...
PLANAR KINETICS OF A RIGID BODY WORK AND ENERGY
... done by all the external forces and couple moments acting on the body as the body moves from its initial to its final position, is equal to the body’s final translational and rotational kinetic energy. Note the work of the body’s internal forces does not have to be considered since the body is rigid ...
... done by all the external forces and couple moments acting on the body as the body moves from its initial to its final position, is equal to the body’s final translational and rotational kinetic energy. Note the work of the body’s internal forces does not have to be considered since the body is rigid ...
ch10
... Conceptual Example 8 Changing the Mass of a Simple Harmonic Oscilator The box rests on a horizontal, frictionless surface. The spring is stretched to x=A and released. When the box is passing through x=0, a second box of the same mass is attached to it. Discuss what happens to the (a) maximum speed ...
... Conceptual Example 8 Changing the Mass of a Simple Harmonic Oscilator The box rests on a horizontal, frictionless surface. The spring is stretched to x=A and released. When the box is passing through x=0, a second box of the same mass is attached to it. Discuss what happens to the (a) maximum speed ...
(½)m(v 2 )
... relaxed level, yB = 0. The ball gets to maximum height yC = 20.0 m above the relaxed end of the spring. (A) If there is no friction, find the spring constant k. (B) Find speed of ball at point B. It starts from rest & speeds up as the spring pushes against it. As it leaves the gun, gravity slows it ...
... relaxed level, yB = 0. The ball gets to maximum height yC = 20.0 m above the relaxed end of the spring. (A) If there is no friction, find the spring constant k. (B) Find speed of ball at point B. It starts from rest & speeds up as the spring pushes against it. As it leaves the gun, gravity slows it ...
Target Ideas for Cycle I
... closely aligned with the corresponding ideas they would find in textbooks or when they talk with other students. Target Ideas for Cycle I 1. Distance-Time Graph Idea: An object moving at a constant speed has a distance-time graph that is a straight line with a positive slope. The speed of an object ...
... closely aligned with the corresponding ideas they would find in textbooks or when they talk with other students. Target Ideas for Cycle I 1. Distance-Time Graph Idea: An object moving at a constant speed has a distance-time graph that is a straight line with a positive slope. The speed of an object ...
1 - Siena College
... 5. Based on the trail of circles left on the movie image, does the Ferris Wheel appear to be rotating with a relatively constant speed? Explain your reasoning. 6. In Logger Pro look at the velocity in the x and y directions vs. time How do these velocity components seem to be varying? Hint: the velo ...
... 5. Based on the trail of circles left on the movie image, does the Ferris Wheel appear to be rotating with a relatively constant speed? Explain your reasoning. 6. In Logger Pro look at the velocity in the x and y directions vs. time How do these velocity components seem to be varying? Hint: the velo ...
