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SAT Subject Test: Physics Formulas

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Electric force formula? (two)
Fingers= Magnetic Field - Thumb=Velocity - Palm of hand= Force. RH=Proton - LH= electron.
Felec=qE=[kq1q2]/r²
W=(Force parallel)(distance)= Pressure ? V (change in volume)= qvoltage
Negative - focus behind the lens (= virtual image)

2. Internal energy....equals?
Longer ? - larger diffraction - smaller shadow.
?=h/p (where p= MOMENTUM=m?v - and h is planck's constant)
?IE= - W (work)
A= A0 e ^ [-?t] (= activity at time t=0 e ^ ( - decay constant * time)

3. Relativistic factor Y formula
Ni sin?i=nrsin?r
Negative - focus behind the lens (= virtual image)
V=IR
Y= 1/ v(1-(v/c)²)

4. Index of refraction formula
?= 4L + 1.6d
EMFavg. induced= -?Fb/ ?t (= - change in mag flux/change in time)
N= C/velocity.
F= n * vel/2L n= 1 - 2 - 3... (L= length of pipe) (?=2L/n)

5. deBrolglie wavelength formula

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6. Work function F is..?
Minimal energy that needs to be imparted to an electron on metal surface in order to liberate it.
Large/high
E= V/d
Threshold frequency=F/h (= work functions/planck's constant)

7. Relativistic formula for length
PV/nT'= p'V'n'T' (p=pressure - V= VOLUME - T= temperature)
Length stationary=Length moving/Y
Zero.
1.6*10?¹? C

8. Work formula
W=(Force parallel)(distance)= Pressure ? V (change in volume)= qvoltage
?IE= - W (work)
R= ?L/A = (resistivity)(length of wire) / (cross sectional Area)
Longer ? - larger diffraction - smaller shadow.

9. Voltage formula (for circuit - etc.)
Apparent weight = Fb- weight= (mfg) - (m0g) = (mass of displaced fluid gravity) - (initial mass of object while hanging in air gravity) = (DfVfg)- (DoVog)
The incident angle at which total internal reflection occurs (use ?r=90°)
V=IR
En= [Z²/n² * -13.6ev ] (Z is number of protons in atom's nucleus - n is energy level number)

10. Potential Energy formula
PE=mgh
Q=mc?T (where T is temperature)
Distance= velocity * time
(n-1/2)?/ d= x/L (where x =distance between c and the anti-node - L =distance from screen to source - n=number anti-node - and d = distance between the slits)

11. Formula for energy levels within any atom?

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12. speed of light
?=h/p (where p= MOMENTUM=m?v - and h is planck's constant)
Atom + electron--> Neutron (the addition of an electron - °?1e - causes a proton to change into a neutron - i.e. PROTON TRANSFORMS)
Distance= velocity * time
C= 3*108 m/s

13. Activity of a radioactive sample formula? (probably don't have to know)
PV/nT'= p'V'n'T' (p=pressure - V= VOLUME - T= temperature)
Product of each lens's magnification
A= A0 e ^ [-?t] (= activity at time t=0 e ^ ( - decay constant * time)
The incident angle at which total internal reflection occurs (use ?r=90°)

14. Threshold frequency explanation?
Q=mc?T (where T is temperature)
Minimum frequency that needs to illuminate a metal surface for photoELECTRONS to be emitted
Threshold frequency=F/h (= work functions/planck's constant)
Q= [(mass of A + mass of B) - (mass of C + mass of D)] c² (where A+B-->C+D)

15. Power formula?
Beat frequency= |F1-F2|
P=IV=I²R=V² /R = Fd/t= Force*velocity
The volume of the object.
Positive - focus in front of the lens (=real image)

16. Law of refraction
?Tstationary= Y (?Tmoving)
Threshold frequency=F/h (= work functions/planck's constant)
Vfinal²=V0²+ 2ad
Ni sin?i=nrsin?r

17. Formula for electric field?
Particles in motion can display wave characteristics - and behave as if they had wavelength (?= h/p)
E= kq/r² (= f/q)
The volume of the object.
En= [Z²/n² * -13.6ev ] (Z is number of protons in atom's nucleus - n is energy level number)

18. Planck's constant in electronvolts* seconds?
Vfinal= V0 +at
4.14 10?¹5 eVs
PV=nRT (p= pressure - V= volume - n= number of moles - T= temperature in KELVIN - R= .0821)
Induced current will flow opposite direction of magnetic flux.

19. Binding energy explanation
A= A0 e ^ [-?t] (= activity at time t=0 e ^ ( - decay constant * time)
Energy it takes to break a nucleus into separate protons and neutrons (same as energy lost to create atom.)
C= 3*108 m/s
Etotal= E rest + KE= mc² + (Y-1)mc²

20. Relativistic formula for (kinetic) energy
Vstationary obj.= [u+v] / [1 + uv/c²] (where u is velocity of large object - and v is velocity of "thrown" object relative to large object)
Intensity a Amplitude/ d²
Positive - focus in front of the lens (=real image)
KE= (Y-1)mc² (= (Y-1)E)

21. Heat of fusion/vaporization fromula
Threshold frequency=F/h (= work functions/planck's constant)
Voltage=PE/q (remember Joules/Coulomb= volt)
Low
Q=m*L (where L is the latent heat of fusion or vaporization)

22. ONE END CAPPED PIPE FREQUENCY (Frequency/Harmonic series of a pipe closed at one ned)
F= n * vel./ 4L n= 1 - 3 - 5.... (L= length of pipe) (?=4L/n)
G= 6.67 * 10?¹¹ Nm²/kg²
P=mv (?p=m?v)
?=h/p (where p= MOMENTUM=m?v - and h is planck's constant)

23. Ideal gas law
PV=nRT (p= pressure - V= volume - n= number of moles - T= temperature in KELVIN - R= .0821)
Fingers= Magnetic Field - Thumb=Velocity - Palm of hand= Force. RH=Proton - LH= electron.
Atom + electron--> Neutron (the addition of an electron - °?1e - causes a proton to change into a neutron - i.e. PROTON TRANSFORMS)
Shorter ? - less diffraction - bigger shadow.

24. ß? decay?
Proton--> Neutron + positron (+ electron-neutrino - v) (° +1 e is produced)
6.6310 ?³4 Js
En= [Z²/n² * -13.6ev ] (Z is number of protons in atom's nucleus - n is energy level number)
Felec=qE=[kq1q2]/r²

25. Converting Fahrenheit to Celsius
Longer ? - larger diffraction - smaller shadow.
6.6310 ?³4 Js
F= (9/5)C+ 32
Fb= mass of displaced fluid * gravity

26. Correction factor for wavelength in a diffraction experiment (probably don't have to know)
Low
Product of each lens's magnification
Beat frequency= |F1-F2|
?= 4L + 1.6d

27. Formula for velocity of waves?
V=f?
Fingers= Magnetic Field - Thumb=Velocity - Palm of hand= Force. RH=Proton - LH= electron.
KEmax= hf-F (= E-F= Energy of a photon - work function)
V=IR

28. Formula for energy of a photon?

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29. Capacitance constant
PE= 1/2 C (?V)² = 1/2 Q²/C = 1/2 Q?V
Force magnetic= |q|vBsin? (=qVperpendicularB) (?= angle between v and B)
Product of each lens's magnification
E0= 8.85 * 10?¹² C²/(Nm²)

30. Light intensity is proportional to..
W= - kq1q2 (1/r2 - 1/r1)
Intensity a Amplitude/ d²
?V2/?V1= N2/N1 (if secondary greater than primary it's a step-up transformer).
Voltage=PE/q (remember Joules/Coulomb= volt)

31. Lenz's law
V= 331 m/s + (.6 m/s°C)Temperature
Intensity a Amplitude/ d²
F= n * vel/2L n= 1 - 2 - 3... (L= length of pipe) (?=2L/n)
Induced current will flow opposite direction of magnetic flux.

32. mass of a proton/neutron (there's a slight difference but ignore it - neutron has slightly more mass)
1.67*10?²7kg
E= V/d
?=h/p (where p= MOMENTUM=m?v - and h is planck's constant)
Fnet=ma

33. Efficiency of an engine formula
Y= 1/ v(1-(v/c)²)
Negative - focus behind the lens (= virtual image)
Eff= 1- Qc/Qh = 1- Tc/Th
P=IV=I²R=V² /R = Fd/t= Force*velocity

34. Conservation of momentum
Difference between mass of nucleus and sum of it's constituent nucleons (protons/neutrons ...WHY?) energy lost when atom created. (That energy lost is the same energy it takes to break a nucleus into separate protons and neutrons)
W=qVoltage. (think C* J/C and C's cancel out)
Momentum is always conserved in the absence of an outside force
G= 6.67 * 10?¹¹ Nm²/kg²

35. Threshold frequency formula?

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36. What is the apparent weight of a floating object?
N?/ d= x/L (where x =distance between c and the anti-node - L =distance from screen to source - n=number anti-node - and d = distance between the slits)
Voltage=PE/q (remember Joules/Coulomb= volt)
Length stationary=Length moving/Y
Zero.

37. Formula for magnetic flux?
Fb= Bperp-to-areaAcos? (Measures density of magnetic field lines that cross through an area)
?p=f?t (where f is AVERAGE force and t is how long force is applied)
Energy it takes to break a nucleus into separate protons and neutrons (same as energy lost to create atom.)
P=mv (?p=m?v)

38. If speed is slow/low - index of refraction is...
Intensity a Amplitude/ d²
Large/high
PV=nRT (p= pressure - V= volume - n= number of moles - T= temperature in KELVIN - R= .0821)
Minimum frequency that needs to illuminate a metal surface for photoELECTRONS to be emitted

39. Sign of focus for convex lens?
Positive - focus in front of the lens (=real image)
Negative - focus behind the lens (= virtual image)
P=IV=I²R=V² /R = Fd/t= Force*velocity
Large/high

40. Electron capture
Particles in motion can display wave characteristics - and behave as if they had wavelength (?= h/p)
Angle of incidence=Angle of reflection
Atom + electron--> Neutron (the addition of an electron - °?1e - causes a proton to change into a neutron - i.e. PROTON TRANSFORMS)
W=qVoltage. (think C* J/C and C's cancel out)

41. Energy of an emitted photon formula?
Energy of emitted photon = E2-E1 (=Energy level higher- Energy level lower)
Induced current will flow opposite direction of magnetic flux.
Atom + electron--> Neutron (the addition of an electron - °?1e - causes a proton to change into a neutron - i.e. PROTON TRANSFORMS)
Particles in motion can display wave characteristics - and behave as if they had wavelength (?= h/p)

42. Sign of focus for concave lens?
Large/high
Positive - focus in front of the lens (=real image)
Negative - focus behind the lens (= virtual image)
Energy of emitted photon = E2-E1 (=Energy level higher- Energy level lower)

43. Maximum KE with which an emitted electron leaves is...?
Felec=qE=[kq1q2]/r²
PEspring= 1/2 kx² (K is spring constant - X is distance spring compressed)
KEmax= hf-F (= E-F= Energy of a photon - work function)
E0= 8.85 * 10?¹² C²/(Nm²)

44. energy in a reaction q formula?
PEspring= 1/2 kx² (K is spring constant - X is distance spring compressed)
Q= [(mass of A + mass of B) - (mass of C + mass of D)] c² (where A+B-->C+D)
PE=mgh
PV/nT'= p'V'n'T' (p=pressure - V= VOLUME - T= temperature)

45. Moment of Inertia (a.k.a. rotational mass)
Vfinal= V0 +at
I=mr²
A= A0 e ^ [-?t] (= activity at time t=0 e ^ ( - decay constant * time)
Felec=qE=[kq1q2]/r²

46. Mass defect explanation

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47. Formula for resistance of an OBJECT
Intensity a Amplitude/ d²
Distance= velocity * time
R= ?L/A = (resistivity)(length of wire) / (cross sectional Area)
931MeV=1amu

48. Kinetic Energy formula
Distance= velocity * time
The release of electrons due to bombardment of an atom by photons (groups of quanta/bundles of matter)
?Tstationary= Y (?Tmoving)
KE=1/2mv²

49. Centripetal acceleration formula
4.14 10?¹5 eVs
En= [Z²/n² * -13.6ev ] (Z is number of protons in atom's nucleus - n is energy level number)
F= n * vel./ 4L n= 1 - 3 - 5.... (L= length of pipe) (?=4L/n)
A=v²/ r

50. Formula for electric potential energy?
W=qVoltage. (think C* J/C and C's cancel out)
Zero.
Difference between mass of nucleus and sum of it's constituent nucleons (protons/neutrons ...WHY?) energy lost when atom created. (That energy lost is the same energy it takes to break a nucleus into separate protons and neutrons)
PE= 1/2 C (?V)² = 1/2 Q²/C = 1/2 Q?V