AP Physics 1 Equations

AP Physics 1 Equations

memorize.aimemorize.ai (lvl 286)
Section 1

Preview this deck

Centripetal Acceleration

Front

Star 0%
Star 0%
Star 0%
Star 0%
Star 0%

0.0

0 reviews

5
0
4
0
3
0
2
0
1
0

Active users

0

All-time users

0

Favorites

0

Last updated

2 years ago

Date created

Mar 1, 2020

Cards (35)

Section 1

(35 cards)

Centripetal Acceleration

Front

v = Velocity r = Radius

Back

Definition of Average Velocity

Front

∆x = Change in Distance t = Elapsed Time

Back

Potential for Point Charges

Front

k = Coulomb's Constant q = Charge r = Radius

Back

Resistors in Series

Front

R = Resistance

Back

Resistors in Parallel

Front

R = Resistance

Back

Force of Friction

Front

μ = Coefficient of Friction F[n] = Normal Force

Back

Period/Frequency Relationship

Front

T = period f = Frequency

Back

Definition of Momentum

Front

m = Mass v = Velocity

Back

Definition of Work

Front

∆r = Distance

Back

Period of a Simple Pendulum

Front

ℓ = Length g = Acceleration Due to Gravity

Back

Velocity of an Object as a Function of Time

Front

v₀ = Initial Velocity a = Acceleration t = Time

Back

Ohm's Law

Front

V = Voltage I = Current R = Resistance

Back

Gravitational Potential Energy

Front

m = Mass g = Acceleration Due to Gravity h = Height

Back

Definition of Acceleration

Front

∆v = Change in Velocity t = Time

Back

Hooke's Law

Front

F[s] = Force on Spring k = Spring Constant x = Position of Spring

Back

Voltage Between Parallel Plates

Front

v = Velocity d = Distance

Back

Period of a Spring Pendulum

Front

m = Mass k = Spring Constant

Back

Definition of Density

Front

m = Mass V = volume

Back

Kinetic Energy

Front

m = Mass v = Velocity

Back

Definition of Current

Front

∆Q = Change in Charge ∆t = Elapsed Time

Back

Coulomb's Law

Front

k = Thermal Conductivity q = Charge r = Radius

Back

Newton's 2nd Law

Front

m = Mass a = Acceleration

Back

Velocity as a Function Without Time

Front

v₀ = Initial Velocity a = Acceleration ∆x = Distance

Back

Elastic Potential Energy

Front

k = Spring Constant x = Position of Spring

Back

Resistivity

Front

R = Resistance ρ = Resistivity ℓ = Length A = Area

Back

Force on a charge in an Electric Field

Front

q = Charge

Back

Average Power

Front

w = Work ∆t = Elapsed Time

Back

Power Dissipated by a Circuit

Front

I = Current V = Voltage

Back

Work on a Charge

Front

q = Charge v = Voltage

Back

Definition of Impulse

Front

F = Force ∆t = Change in Time ∆p = Change in Momentum

Back

The wave equation

Front

v = Speed f = Frequency λ = Wavelength

Back

Power as a Function of Force

Front

v = Velocity

Back

Displacement of an Object as a Function of Time

Front

v₀ = Initial Velocity t = Time a = Acceleration

Back

Newton's Universal Law of Gravitation

Front

G = Universal Gravity Constant m = Mass r = Radius

Back

Torque

Front

r = Distance F = Force θ = Angle

Back