Chemical Reactions (1 of 11) Double Replacement Reactions, An Explanation
Kirchhoff's Rules (1 of 4) Circuit Analysis, An Explanation
What is a Newton? An Explanation
Uniform Electric Fields: an Explanation
Ray Diagrams (2 of 4) Convex Lens
Electric Field (1 of 3) An Explanation
Kirchhoff's Rules (2 of 4) Circuit Analysis, Example No. 1
Chemical Reactions (2 of 11) Single Replacement Reactions, An Explanation
Gravitation (4 of 17) Calculating Acceleration Due to Gravity (g)
Chemical Reaction (5 of 11) Synthesis Reactions, an Explanation
Empirical and Molecular Formula from Percent Composition (No. 1)
Inductors and Inductance: An Explanation
Kirchhoff's Rules (3 of 4) Circuit Analysis, Example No. 2
Electric Field (2 of 3) Calculating the Magnitude and Direction of the Electric Field
Ray Diagrams (3 of 4) Concave and Convex Lenses and Mirrors: Parallel Light Rays
Two Dimensional Motion (2 of 4) Worked Example
Newton's 2nd Law (7 of 21) Calculating Acceleration of a Atwood Machine
What is a Joule? An Explanation
Ray Diagrams (4 of 4) Concave Lens and Convex Mirror
Dimensional Analysis Part 1, Units for Answers
Ohm's Law, An Explanation
Resistance & Resistivity, An Explanation
Resistance & Resistivity, Example Problems
Chemical Reactions (4 of 11) Decomposition Reactions, An Explanation
Newton's 2nd Law (1 of 21) Calculate Acceleration w/o Friction, Net Force Horizontal
Physics, Torque (1 of 13) An Explanation
Ray Diagrams (1 of 4) Concave Mirror
Buoyancy and Archimedes’ Principle: Example Problems
Channel Trailer Step by Step Science
Two Dimensional Motion (1 of 4) An Explanation
Photoelectric Effect (6 of 8) Stopping Potential, An Explanation
LC Oscillating Circuit: An Explanation
Ohm's Law, Example Problems
Converting Between Mass and Weight: Example Problems
Capacitors (2 of 9) What is Capacitance? An Explanation
Chemical Reactions (11 of 11) Stoichiometry: Grams to Liters of a Gas
Motion Graphs (1 of 8) Position vs. Time Graph Part 1, Constant Velocity
Capacitors (4 of 9) Calculating the Capacitance of a Capacitor, An Explanation
Kirchhoff's Rules (4 of 4) Circuit Analysis, Example No. 3
Newton's 2nd Law (2 of 21) Calculate Acceleration with Friction, Net Force Horizontal
EM Spectrum (1 of 3) An Explanation
Uniform Electric Field (1 of 9 ) Motion of Charged Particles Parallel to the Field
Resistors in Electric Circuits (9 of 16) Combination Resistors No. 1
Specific Heat of a Metal by Calorimetry
Newton's 2nd Law (3 of 21) Calculate Acceleration w/o Friction, Net Force Above the Horizontal
Resistors is Electric Circuits (2 of 16) Voltage, Resistance & Current for Series Circuits
Ionic Compounds: Cross Over Rule
Motion Graphs (3 of 8) Position vs. Time Graph Part 3, Constant Velocity and Acceleration
Simple Machines (3 of 7) Pulleys; Calculating Forces, Distances, MA, Part 2
What is Current? An Explanation
Ionic and Covalent Compounds: Writing Names and Formulas
Newton's 2nd Law (6a of 21) The Normal Force, The Elevator
Convert from the Slope Intercept Form to the Standard Form
Resistors in Electric Circuits (1 of 16) Series vs. Parallel
Motion Graphs (7 of 8) Calculating Speed & Velocity for One Dimensional Motion
Newton's 2nd Law (12 of 21) Calculate Acceleration w/o Friction; Inclined Plane, Pulley, Two Masses
Simple Harmonic Motion (15 of 16): Amplitude, Period & Frequency
Chemical Reactions (3 of 11) Combustion Reactions, An Explanation
Gravitational Potential Energy, Example Problems