Equations U1 Flashcards by Ryan Ferris

Q

Hookes Law

A

F=kx

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Q

Springs in series

A

1/keq = 1/k1 +1/k2…

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Q

Stress

A

Ó=F/A

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Q

Strain

A

Ẽ= x/Lo

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Q

Youngs Modulus

A

E=Ó/Ẽ

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Q

Area of a circle

A

A=Pi x r^2

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Q

Boyles Law

A

pV=k

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Q

Charles Law

A

V/T=k

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Q

Pressure Law

A

p/T=k

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Q

pVT Eqn 1

A

pV/T=k

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Q

pVT Eqn 2

A

p1 V1/T1 = p2 V2/T2

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Q

Ideal Gas Eqn

A

pV=nRT

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Q

Boltzmann Gas Eqn

A

pV=nkT

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Q

Root mean square speed

A

Crms = [(c1+c2+c3+…+cN2)/N]^1/2

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Q

Mean square speed pressure link

A

pV=1/3Nm<c^2>

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Q

Mean square speed density link

A

p=1/3{p}<c^2>

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Q

Mean square speed temperature link

A

1/2m<c^2>=3/2kT

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Q

Specific heat capacity

A

Q=mc/\Ø

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Q

Specific heat capacity of a liquid

A

Q=mLcL/\Ø+mCcC/\Ø

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Q

Specific heat capacity final temperature

A

mLcL(TL-Tf)=mCcC(Tf-Tc)

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Q

Angular velocity (°)

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A

W = Ø / t

Q

Arc length

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A

s = Ø r

Q

Linear Velocity

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A

v = r w

Q

Centripetal acceleration (v form)

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A

a = v^2 / r

Centripetal force (v form)

F = m v^2 / r

Centripetal force (w form)

F = m w^2 r

Angular velocity (from period)

w = 2pi / T

° to rad

x° (2pi / 360)

rad to °

x rad (360 / 2pi)

Frequency (angular form)

f = w / 2pi

SHM Acceleration

a = -w^2 x

Angular velocity (from frequency)

w = 2pi f

Time period

T = 1/f

SHM Displacement

x = A cos wt

radius of nucleus

r = ro A^1/3

Volume of sphere

V = 4/3 pi r^3

Atomic Mass Number Relation

A = (r / ro)^3

Radius from Volume (Sphere)

r = (3 v/4pi)^1/3

Activity Decay Eqn

A = Ao e^-(lambda)t

Number Decay Eqn

N = No e^-(lambda)t

Decay Ratio Form (e^-lambda t)

A / Ao

Half life

t1/2 = 0.693/decay constant

Activity Definition Eqn

A = decay constant N

Log Decay Form (-lambda t)

Ln(A) - Ln(Ao)

Ln(A)

Ln(Ao) - (lambda)t

Ln(Ao)

Ln(A) + (lambda)t

Mass of nucleus

M = UA

De Broglie Wavelength

/| = h/p (plancks constant/momentum (mv))

Einsteins equation

E = mc^2

Binding energy per nucleon

BE per n = BE(total) / A (total binding energy / atomic number)