PHYSICAL SCI E06 11
... 2. TSW compare and contrast average speed and instantaneous speed and calculate the speed of an object using slopes. (p. 332 – 335) 3. TSW contrast speed and velocity and describe how velocities combine. (p. 336 – 337) 4. TSW identify changes in motion that produce acceleration, calculate the accele ...
... 2. TSW compare and contrast average speed and instantaneous speed and calculate the speed of an object using slopes. (p. 332 – 335) 3. TSW contrast speed and velocity and describe how velocities combine. (p. 336 – 337) 4. TSW identify changes in motion that produce acceleration, calculate the accele ...
I. Newton`s Laws of Motion
... If the truck were to abruptly stop and the straps were no longer functioning, then the ladder in motion would continue in motion. Assuming a negligible amount of friction between the truck and the ladder, the ladder would slide off the top of the truck and be hurled into the air. Once it leaves the ...
... If the truck were to abruptly stop and the straps were no longer functioning, then the ladder in motion would continue in motion. Assuming a negligible amount of friction between the truck and the ladder, the ladder would slide off the top of the truck and be hurled into the air. Once it leaves the ...
Unit Review
... 17) A .015 kg marble moving to the right at .225 m/s makes an elastic head on collision with a .03 kg shooter marble moving to the left at .18 m/s. After the collision, the smaller marble moves to the left at .315 m/s. What is the velocity of the .03 kg marble after the collision. Since this is an e ...
... 17) A .015 kg marble moving to the right at .225 m/s makes an elastic head on collision with a .03 kg shooter marble moving to the left at .18 m/s. After the collision, the smaller marble moves to the left at .315 m/s. What is the velocity of the .03 kg marble after the collision. Since this is an e ...
Magnetism - University of Colorado Boulder
... B-5 Magnetic force on a current-carrying wire A B-field exerts a force on a moving charge. A current-carrying wire is full of moving charges, so a B-field exerts a force on the current-carrying wire. The force on a straight wire of length L, v v v carrying a current I, in a uniform magnetic field B ...
... B-5 Magnetic force on a current-carrying wire A B-field exerts a force on a moving charge. A current-carrying wire is full of moving charges, so a B-field exerts a force on the current-carrying wire. The force on a straight wire of length L, v v v carrying a current I, in a uniform magnetic field B ...
Gravitational Fields and Force
... Inertial mass A measure of an object’s inertia (tendency to resist a change in motion) Expressed as a ratio of net force and acceleration – Newton’s 2nd Law ...
... Inertial mass A measure of an object’s inertia (tendency to resist a change in motion) Expressed as a ratio of net force and acceleration – Newton’s 2nd Law ...
Chapter 6 - TeacherWeb
... The faster it falls, the greater the __________________ it encounters. An object will continue to __________________ as it falls until the upward force of ____________________ equals the downward force of ________________. After that, the object will fall at a constant speed, called ___________ ____ ...
... The faster it falls, the greater the __________________ it encounters. An object will continue to __________________ as it falls until the upward force of ____________________ equals the downward force of ________________. After that, the object will fall at a constant speed, called ___________ ____ ...
rocket labtm - Estes Rockets
... it up.The forces acting on the ball are balanced. When the ball stays at rest with no unbalanced forces to act on it is called static inertia. When students let the ball go or move their hand upward, the ball changes from a state of rest acted upon by balanced forces to a state of motion acted upon ...
... it up.The forces acting on the ball are balanced. When the ball stays at rest with no unbalanced forces to act on it is called static inertia. When students let the ball go or move their hand upward, the ball changes from a state of rest acted upon by balanced forces to a state of motion acted upon ...
