Physics 1
... I can demonstrate the conditions necessary to produce work. I can examine what factors affect the collision of two objects, and how can to determine whether the collision is elastic or ...
... I can demonstrate the conditions necessary to produce work. I can examine what factors affect the collision of two objects, and how can to determine whether the collision is elastic or ...
Download_2
... For this Activity you will be using a computer-based laboratory system with an ultrasonic motion sensor and motion software. The motion sensor acts like a stupid bat when hooked up with a computer-based laboratory system. It sends out a series of sound pulses that are too high frequency to hear. The ...
... For this Activity you will be using a computer-based laboratory system with an ultrasonic motion sensor and motion software. The motion sensor acts like a stupid bat when hooked up with a computer-based laboratory system. It sends out a series of sound pulses that are too high frequency to hear. The ...
Simple Harmonic Motion - Gonzaga Physics Department
... 1. Set up a simple pendulum. Pull the string aside so that it makes an angle of 30◦ with the vertical. This is called the initial angle. Let the object swing and record the time for ten full oscillations. Record the length of the string. This is the distance from the point where the string is attach ...
... 1. Set up a simple pendulum. Pull the string aside so that it makes an angle of 30◦ with the vertical. This is called the initial angle. Let the object swing and record the time for ten full oscillations. Record the length of the string. This is the distance from the point where the string is attach ...
Rigid Body Dynamics chapter 10 continues
... energies associated with linear motion (K = ½ mv 2) and the kinetic energy associated with rotational motion (KR= ½ I2) Rotational kinetic energy is not a new type of energy, the form is different because it is applied to a rotating object The units of rotational kinetic energy are also Joules (J) ...
... energies associated with linear motion (K = ½ mv 2) and the kinetic energy associated with rotational motion (KR= ½ I2) Rotational kinetic energy is not a new type of energy, the form is different because it is applied to a rotating object The units of rotational kinetic energy are also Joules (J) ...
CPHDRW FOR c06 41
... Name _______________________________________________ Date ________________ Class______________ ...
... Name _______________________________________________ Date ________________ Class______________ ...
Force Summation
... uniform straight line motion, unless acted upon by a force to change that state of rest or motion”. e.g.. Daniel Carter kicking a goal ball will remain at rest until Dan applies a force with his foot. The ball would travel in a straight line into the sky, but is acted upon by gravity and air resista ...
... uniform straight line motion, unless acted upon by a force to change that state of rest or motion”. e.g.. Daniel Carter kicking a goal ball will remain at rest until Dan applies a force with his foot. The ball would travel in a straight line into the sky, but is acted upon by gravity and air resista ...
