Memorizables 1 Formulas (copy)

studied byStudied by 2 people
0.0(0)
Get a hint
Hint

Net Force

1 / 70

flashcard set

Earn XP

Description and Tags

MCAT Memorizables 1

71 Terms

1

Net Force

Fnet = ma

Fnet= net force

m=mass

a=acceleration

New cards
2

Gravitational Force on Earth

Fg=mg

Fg=gravitational force on earth

m=mass

g=gravitational acceleration

New cards
3

Gravitational Force in General

FG=Gm1m2/r2

FG=Gravitational Force

G=gravitational constant

m1,m2=masses

r=distance between centers of masses

New cards
4

Electric Force (charged object into electric field)

FE=qE

FE=Electrical Force

q=charge on object

E=electrical field

New cards
5

Electric Force (between two points of charge)

FE=kq1q2/r2

FE=Electric Force

k=electric force constant

q1,q2=charges on objects

r=distance between the centers of the objects

New cards
6

Electric Field Formula

E=kQ/r²

E=electric field

k=electric force constant

Q=charge

r=distance from charge

New cards
7

Spring Force Formula

F=kx

F=spring force

k=spring constant

x=amount stretched/compressed

New cards
8

(Max) Static Friction Formula

Fs,maxsFN

Fs,max=max static friction force

μs=static friction coefficient

FN=Normal Force

New cards
9

Kinetic Friction Formula

FkkFN

Fk=Force of Kinetic friction

μk=kinetic friction coefficient

FN=Normal Force

New cards
10

Buoyant Force Formula

Fb=ρVg

Fb=Buoyant Force

V=volume submerged

g=gravitational acceleration

New cards
11

Magnetic Force Formula

Fm=qvBsin(θ)

Fm=Magnetic Force

q=charge

v=velocity

B=strength of magnetic field

θ=angle between direction of velocity and direction of magnetic field

New cards
12

Torque Formula

T=rFsin(θ)

T=Torque (N*m)

r=distance from point that force is applied to pivot point of object rotating about

F=Force causing object to rotate

θ=angle between direction of the force and the line connecting the point the force is acting on to the pivot point of rotation

New cards
13

Net Force on Inclined Plane

Fnet=mgsin(θ)

Fnet= Net Force

m=mass

g=gravitational acceleration

θ=angle inclined plane makes with ground

New cards
14

Normal Force on Inclined Plane

FN=mgcos(θ)

FN=Normal Force

m=mass

g=gravitational acceleration

θ=angle inclined plane makes with ground

New cards
15

Acceleration Formula

a=Δv/t

a=acceleration

Δv=change in velocity

t=time

New cards
16

Simple Distance Formula

d=vt

New cards
17

Three General Motion/Projectile Formulas

  1. vf=v0+at

  2. vf2=v02+2ad

  3. d=v0t+(1/2)at²

New cards
18

Gravitational Acceleration Formula (surface of planet)

g=GM/r²

g=gravitational acceleration (on surface of planet)

G=universal gravitational constant

M=mass of planet

r=radius of planet

New cards
19

Kinetic Energy Formula

KE=1/2mv²

KE - joules (J)

New cards
20

General Work Formula

W=Fdcos(θ)

W=Work

F=Force

d=distance force applied

θ=angle between direction of the force and the direction of the velocity of the object

New cards
21

Net Work Formula

Wnet=Fnetdcos(θ)

Wnet=Net Work

Fnet=Net Force

d=distance force applied

θ=angle between direction of the force and the direction of the velocity of the object

New cards
22

Gravitational Potential Energy (close to Earth’s surface)

UG=mgh

UG=Gravitational Potential Energy

m=mass

g=gravitational acceleration

h=height of mass

New cards
23

Spring Potential Energy

Uspr=1/2*kx²

Uspr=Spring Potential Energy

k=spring constant

x=amount spring stretched/compressed

New cards
24

Electrical Potential Energy Formula (1 point charge)

UE=qV

UE=electrical potential energy

q=charge

V=voltage

New cards
25

Change in Electrical Potential Energy Formula

ΔUE=qEd

ΔUE=change in electrical potential energy of object

q=charge

E=strength of constant electrical field

d=distance object “falls”

New cards
26

Change in Voltage formula

ΔV=Ed

ΔV=change in voltage

E=strength of electric field

d=distance the object moves through

New cards
27

Voltage Formula (single point charge)

V=kQ/r

V=voltage

k=electrical constant

Q=charge

r=distance from center of charge

New cards
28

Electrical Potential Energy Formula (2 point charges)

UE=kq1q2/r

UE=Electrical potential energy

k=electrical constant

q1,q2=charges

r=distance between centers

New cards
29

Energy of Photon Formula

Ep=hf

Ep=energy of photon

h=planck’s constant

f=frequency

New cards
30

Thermal Energy of Friction (kinetic) Formula

Ef= -Fkd

Ef=energy lost by object to heat of friction

Fk=force of kinetic friction

d=distance object travels

New cards
31

General Power Formula (w/o constant velocity)

P=ΔE/t

P=power

ΔE=energy transferred

t=time

New cards
32

General Power Formula 2 (constant velocity)

P=Fv

P=power

F=force

v=velocity

New cards
33

Wave Velocity Formula

vw=λf

vw=wave velocity

λ=wavelength

f=frequency

New cards
34

Period of Cycle Formula

T=1/f

T= time period required to complete one cycle

f=frequency

New cards
35

Intensity of Wave Formula 1 (simple)

I=P/A

I=intensity

P=power

A=area

New cards
36

Intensity of Wave Formula 2 (harder one, uses distance)

I1r1²=I2r2²

I1,I2=intensity at 1,2 location

r1,r2=distance from source at 1,2 location

*inverse square law

New cards
37

Decibels Formula

10log(I/I0)

I=intensity being studied

I0=reference intensity which is = to lowest intensity human hears can detect

New cards
38

Beat Frequency Formula

fbeat=f1-f2

fbeat= beat frequency

f1=frequency of first wave

f2=frequency of second wave

*beat frequency produced when two similar frequencies interfere producing 3rd frequency

*cant be negative

New cards
39

General Angular Frequency Formula

ω=2πf

ω=angular frequency

f=regular frequency

New cards
40

Doppler Effect Formula for frequency

fd=fs(vw±vd)/(vw±vs)

fd=frequency detected

fs=frequency emitted from source

vw=velocity of wave

vd=velocity of detector

New cards
41

Oscillating Spring Angular Frequency Formula

ω=sqrt(k/m)

ω=angular frequency

k=spring constant

<p>ω=sqrt(k/m)</p><p>ω=angular frequency</p><p>k=spring constant</p>
New cards
42

Pendulum Angular Frequency Formula

ω=sqrt(g/L)

ω=angular frequency

g=gravitational acceleration

L=length of pendulum

<p>ω=sqrt(g/L) </p><p>ω=angular frequency</p><p>g=gravitational acceleration</p><p>L=length of pendulum</p>
New cards
43

3 General Pressure Formulas

  1. P=F/A

  2. Ptot=Patm+Pgauge

  3. Ptot=Patm+ρgh

P=Pressure

F=force

A=area

Pguage=pressure of fluid exerting, pressure on top of atmospheric pressure

ρ=density of liquid

g=gravitational acceleration

h-=height of liquid above point in question (depth)

New cards
44

Specific Gravity of Substance Formula

Specific Gravity = ρsubstance/ρwater

ρsubstance=density of substance

ρwater=density of water

New cards
45

Fraction of Object Submerged Formula

Fraction Submerged = ρobjectfluid

New cards
46

Volume Flow Rate Formula

Q=Av

Q=volume flow rate

A=cross sectional area of pipe

v=velocity of fluid

New cards
47

Bernouilli’s Equation

P+1/2ρv²+ρgh = constant

P=pressure

v=velocity

g=gravitational acceleration

h=height

ρ=density of fluid

New cards
48

Surface Tension Formula

T=F/d

T=surface tension

F=force

d=length over which the force is applied

New cards
49

Electrical Current Formula

I=q/t

I=current

q=charge

t=time charge flows

New cards
50

Voltage Drop Formula (ez)

V=IR

New cards
51

Resistance of Resistor Formula

R=ρ(L/A)

R=resistance

ρ=resistivity

L=length of resistor/wire

A=cross sectional area of resistor/wire

New cards
52

Conductivity Formula

σ=1/ρ

σ=conductivity

ρ=resistivity

New cards
53

Equivalent Resistance (In series)

Req=R1+R2+…

New cards
54

Equivalent Resistance (In parallel)

1/Req=1/R1+1/R2+…

New cards
55

Charged Stored on Capacitor Formula

Q=CV

Q=charge

C=capacitance (not conductivity)

V=voltage drop across capacitor

New cards
56

Capacitance of parallel plane formula

C=(kE0A)/d

C=capacitance

k=dielectric constant

E0=universal electricity constant

A=area of one of capacitor plates

d=distance between plates

New cards
57

Capacitance Circuit (in parallel)

Ceq=C1+C2+…

New cards
58

Capacitance Circuit (in series)

1/Ceq=1/C1+1/C2+…

New cards
59

Three formulas for Electrical Power

PE=IV

PE=I²R

PE=V²/R

PE=Electrical Power

New cards
60

Three formulas for Electrical Energy

UE=1/2 * Q²/C

UE=1/2 * CV²

UE=1/2 * QV

UE=electrical energy

Q=charge

C=capacitance

V=voltage drop

New cards
61

Average Current formula (AC circuit only)

Irms=Imax/sqrt2

Irms=average current

Imax= max current

New cards
62

Light passing through medium formula

n=c/v

nmedium=index of refraction of medium

c=speed of light in vacuum (3.0×10^8)

v=speed of light in medium

New cards
63

Two Snell’s Law Formula for Light Passing through Mediums

nsinθ=constant

n1sinθ1=n2sinθ2

n=respective index of refraction

θ=respective angle the light ray makes with normal line drawn to surface it passes through

New cards
64

Focal Length of spherical mirror formula

f=r/2

f=focal length

r=radius

New cards
65

Focal Length System Formula

1/f=1/do+1/di

f=focal length

do=distance from object to center of lens/mirror

di=distance from image to center of lens/mirror

New cards
66

Magnification Formula

m = -di/do

m=magnification (ratio of image height to object height)

di=distance from image to lens/mirror

do=distance from object to lens/mirror

*ex: if m=2. image is twice as tall as object

New cards
67

Power of optical system formula

P=1/f

P=power

f=focal length

New cards
68

Thermodynamics: Internal Energy Formula

ΔU=Q+W

ΔU= change in internal energy of substance

Q=heat transferred to gas

W=work performed on gas

New cards
69

Power of Radiation Formula

Prad=kAT4

Prad=power of radiation

k=radiating object constant

T=temperature of radiating object (K)

A=area of object radiating energy

New cards
70

Total Radiation Formula

Qrad=kAT4t

Qrad=total radiation

k=radiating object constant

T=temperature of radiating object (K)

A=area of object radiating energy

t=time

New cards
71

Internal Kinetic Energy of Monatomic Gas Formula

U=3/2*nRT

U=internal kinetic energy

n=number of molecules (moles)

R=gas constant (8.31)

T=temperature (K)

New cards

Explore top notes

note Note
studied byStudied by 18 people
... ago
5.0(1)
note Note
studied byStudied by 42 people
... ago
5.0(1)
note Note
studied byStudied by 3 people
... ago
5.0(1)
note Note
studied byStudied by 7 people
... ago
5.0(1)
note Note
studied byStudied by 10 people
... ago
5.0(1)
note Note
studied byStudied by 4 people
... ago
5.0(1)
note Note
studied byStudied by 38 people
... ago
5.0(2)
note Note
studied byStudied by 16 people
... ago
5.0(1)

Explore top flashcards

flashcards Flashcard (44)
studied byStudied by 4 people
... ago
5.0(1)
flashcards Flashcard (41)
studied byStudied by 2 people
... ago
5.0(1)
flashcards Flashcard (92)
studied byStudied by 3 people
... ago
5.0(1)
flashcards Flashcard (20)
studied byStudied by 275 people
... ago
5.0(10)
flashcards Flashcard (48)
studied byStudied by 6 people
... ago
5.0(1)
flashcards Flashcard (85)
studied byStudied by 2 people
... ago
5.0(1)
flashcards Flashcard (44)
studied byStudied by 4 people
... ago
5.0(1)
flashcards Flashcard (30)
studied byStudied by 34 people
... ago
5.0(1)
robot