Hands on Chemistry is a resource designed for use in traditional, online, and blended high school Chemistry classrooms. In this video, Chemistry teacher Fred Mitchell demonstrates Dalton's Law of Partial Pressure by measuring the amount of butane gas by measuring displacement in a container.

Keywords: dalton's law of partial pressures, collecting gas volume, butane, graduated cylinder, displacement, water vapor, barometric pressure

Meets VA SOL CH.6

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

Two balls of equal mass are rolled down two tracks, one with a dip in it. Then, 4 tracks of different forms are compared. Looking at PE and KE for the Conservation of Energy.

Concepts include: PE, KE, and Conservation of Energy, also horizontal motion. Ph 4: conservation laws apply to all interactions. Ph 4b mechanical energy is conserved unless work is done on, by, or within the system. Kinetic energy is the energy of motion. Potential energy is the energy due to an object’s position or state (PH.4 b). Forces within a system transform energy from one form to another with no change in the system’s total energy (PH.4b). Horizontal motion independent of vertical Ph 2a.

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

In this giant pendulum demo, a bowling ball is attached to a cable hanging from the ceiling and set into motion. Concepts discussed include PE and KE with Conservation of Energy.
VA SOL PH.4, 4a, 4b

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

In this demo, two balls are rolled down a ramp, one with greater mass. They hit a plate near the bottom which illustrates the relationship between mass, momentum, force and impulse.
VA SOL PH. 4, 4a

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

In this video, Alison Gaylord uses a CO2 powered "rocket cart" to demonstrate the conservation of momentum and propulsion, and shows that the momentum of the system is equal in magnitude, but opposite in direction, ensuring the momenta of the system always equals zero.
VA SOL PH. 4a, 2a

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo uses an Electrostatic Sphere to demonstrate charges and includes examples of effects of pie tins and hair placed near it. Electrostatics - Coulombs Law
VA SOL 7a, 7b

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo shows a standing harmonic wave, with nodes, antinodes and how increasing the frequency reduces the wavelength.

VA SOL PH. 5

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo includes a cart on a track with vectors identifying motion. Then, the cart slows, and the vector reverses to indicate motion, and the cart reverses direction.
VA SOL PH.3, 3a

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

Demo: Using a scale to demonstrate that a=0 with two balanced forces.
VA SOL PH. 3a

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo uses a scale and an elevator ride up and down - demonstrating Newton's Laws with unbalanced forces.
VA SOL PH. 3a, 3b

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo illustrates dropping objects with air resistance and without, confirming that all objects fall at the same rate (g) It includes discussion of a similar experiment done by NASA astronauts on the moon.

VA SOL PH. 2d

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo illustrates that two objects fired horizontally or dropped vertically (from the same height and with the same initial x or y velocity, respectively, will hit the ground at the same time.
VA SOL PH. 2d

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

This demo includes a stuffed monkey and a “tranquilizer dart” to demonstrate that In a uniform vertical gravitational field with negligible air resistance, horizontal and vertical components of the motion of a projectile are independent of one another with constant horizontal velocity and constant vertical acceleration.
VA SOL PH. 2d

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia Tech in Blacksburg.

Concepts include: pitch, frequency, resonance, closed and open tubes.
VA SOL PH. 5

Hands on Physics is a co-production of Blue Ridge PBS ECHO and Virtual Virginia. The episodes were all recorded in the demonstration physics lab at Virginia ...

AEDs can save lives during sudden cardiac arrest by using an electrical impulse to restart the heart. In this video, the steps for using an AED are demonstra...

This lesson has students create a hands-on model that accurately explains seasonal changes on Earth and develop knowledge of the Sun-Earth system.

Students can explore maps and electronic communication with this hands on map activity. Add an extension to make a classroom quilt map!

In this exciting and interactive experiment, students will have the opportunity to discover and understand the relationship between force and mass regarding the movement of various-sized balls. Through the use of Spheros, these ingenious devices will enable students to apply force to balls of different sizes, including the wiffle ball, racquetball, softball, and ping pong ball. By observing the fascinating dynamics at play, students will gain invaluable insights into how force and mass influence the trajectory, speed, and overall movement of these balls. This hands-on activity is sure to spark curiosity and foster a deeper appreciation for the principles of physics in a fun and engaging manner.

Operation Prevention's school resources provide educators with engaging tools that are aligned to national health and science standards, and integrate seamlessly into classroom instruction. Through a series of hands-on investigations, students will explore the science behind substance misuse, and the resulting impacts on our brain and body.