Specific Heat - Wireless
In this activity you will use a temperature sensor to measure the temperature change of a volume of cool water when a hot piece of metal is placed in it....
Centripetal Force on a Pendulum - Wireless
The purpose of this activity is to experimentally measure the centripetal force acting on a pendulum...
Projectile Motion - Wireless
This experiment is in four parts: 1. Muzzle Velocity, Time of Flight, and Range 2. Launching at Different Angles on a Plane 3. Predicting the Range of...
Ratio of Specific Heats - Wireless
A cylinder is filled with air and a Wireless Pressure Sensor is attached. The piston is plucked by hand and allowed to oscillate. The oscillating pressure...
Ideal Gas Law - Wireless
The temperature, volume, and pressure of a gas are measured simultaneously to show that they change according to the Ideal Gas Law. Special cases of constant...
Rotational Inertia - Wireless
The rotational inertia of an object is a measure of how hard it is to rotate the object. The purpose of this experiment is to find the rotational inertia...
Electrical Equivalent of Heat - Wireless
The purpose of this experiment is to determine the amount of electrical energy that is equivalent...
Physical Pendulum Period - Wireless
This experiment has two parts: 1. Period of a Thin Rod explores the dependence of the period of a physical pendulum (a uniform bar) on the distance between...
Ballistic Pendulum - Wireless
A ballistic pendulum is used to determine the muzzle velocity of a ball shot out of a Projectile Launcher. The laws of conservation of momentum and conservation...
Magnetic Fields of Coils - Wireless
The magnetic fields of various coils are plotted versus position as the Magnetic Field Sensor is passed through the coils, guided by a track. The position...
Copyright Disclaimer: Section 107 of the Copyright Act of 1976 makes allowance for “fair use” for purposes of teaching, scholarship, education and research. Reproduction under any other circumstances, without the written consent of PASCO, is prohibited.