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Test your basic knowledge |
MCAT Physics Formulas
Start Test
Study First
Subjects
:
mcat
,
science
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. diffraction
?=4L/n
F/A
N is proportional to 1/?
Spreading out of light as it passes through a narrow opening
2. charge of gamma particles
Perpendicular to each other
None
Photon energy must be greater than work function of the material
U=QV
3. open pipe wavelength
3a=Beta
?=2L/n
Vo^2+2a(?x)
Sin=0 cos=-1
4. angular frequency of spring ?
Moving charge
New/old
Light travels from high n to lower n with an angle of incidence greater than the critical angle
?=vk/m=2p??
5. energy of photon
F=Gm1m2/r^2
??=nv/4L
W=mg=?Vg
E=???=hc/?
6. under content acceleration v^2=
Vo^2+2a(?x)
Inverted image
Vrms=Vmax/v2
Virtual upright
7. Log(1000)=
Counterclockwise is + clockwise is -
3
273K 0
T=rFsin?
8. resistance in parallel
Vo^2+2a(?x)
Y=(F/A)/(?L/L) stress over strain
V=?A
1/Req=1/R1+1/R2+1/R3 Veq=V1=V2=V3
9. calculate binding energy
(mass defect)(speed of light)^2
Incident ray
Farad 1 F= 1 c/v
More malleable material
10. boiling point of H2O in K and C
F=ma
373K 100
Surface
Voltage
11. when an electron absorbs a photon
It jumps to higher energy level
??=nv/4L
Resistor
N*s/m^2
12. (-) magnification signifies
V=ED
Higher temperature increases resistance
Inverted image
Solute whose solution is conductive
13. equation for static friction
Y=(F/A)/(?L/L) stress over strain
Fs=
Charge/length
V/??
14. splitting of white light in a prim is an example of...
Dispersion
Conduction
N1>n2
???
15. 45
P1+?gy of 1 + 1/2?v^2 of 1=P2+?gy of 2 + 1/2?v^2 of 2
3
Sin=v2/2 cos=v2/2
Sin=1 cos=0
16. period (T) and frequency (f) of a tone are related by
P=1/f
Nsin?incident=nsin?refraction
T=1/f
F=xk=mg
17. vertical velocity of projectile
Gas to solid
Vsin?
Buoyant force equals blocks weight
Difference between the mass of nucleus and the sum of nucleons
18. v2/2
Counterclockwise is + clockwise is -
3
Approx .7
It jumps to higher energy level
19. relate charge and current
R=pL/A
More flow less resistance
Coulomb=amphere*sec
F=xk=mg
20. when spring is at rest
F/A
Centrioles
Fnet=0 thus Fg=Fs mg=kx
Conductor
21. a virtual image has what kind of image distance
E=1/2k(A^2)
Fluid resistance to flow
Substance is less dense then water
Negative
22. lever arm is halved what happens to torque
It is halved
0K -273
N2>n1
E=???=hc/?
23. density with units
Vsin?
Low voltage to high voltage
image/object
?=m/v kg/m^3 g/ml g/cm^3
24. magnetic field of solenoid
F=nv/2L
Wave speed
B=
T=1/f
25. all harmonics have the same
Higher temperature increases resistance
Image is always upright virtual and smaller
Wave speed
Converted to extra kinetic energy of the emitted electron
26. force experience by stationary particle in magnetic field
Emf is positive
Number of protons in nucleus
?x=1/2(v+vo)t
None
27. direction of electric field created by charge
P=i^2r
Mass
1/f=1/o+ 1/i
Points away from + and toward -
28. increase in velocity of a fluid is associated with
A sin?=n?
Decrease in pressure that fluid exerts on the walls of the container
273K 0
Spring constant
29. units for power
1000 kg/m^3 or 1 g/cm^3
WATTS
Number of protons in nucleus
B=
30. deposition
Inverted image
Gas to solid
A sin?=n?
Low voltage to high voltage
31. relate focal length and radius of curvature(r)
Photon energy must be greater than work function of the material
F=r/2
C=e(A/d)
Fnet=0 thus Fg=Fs mg=kx
32. unit for energy beside J
?=vk/m=2p??
Convection
EV
Force a molecule of liquid feels toward molecules of some other substance
33. Log(100)=
Hydrostatics
B=
2
N2>n1
34. mass defect
B=(F/A)/(?V/V)
Req=R1+R2+R3 Veq=V1+V2+V3
Difference between the mass of nucleus and the sum of nucleons
Fk=
35. Gauss's Law
F=mv^2/r
F=qvBetasin?
F=q/e0
Degree=p/180 radian
36. speed of the spring
Q=mL
Approx .7
Req=R1+R2+R3 Veq=V1+V2+V3
V=?A
37. for photoelectric material to liberate an electron
Decrease in pressure that fluid exerts on the walls of the container
Light emitted due to heat
Photon energy must be greater than work function of the material
Inverted image
38. increasing emf has What effect on ?G
P=1/f
Light travels from high n to lower n with an angle of incidence greater than the critical angle
Makes ?G more negative thus more spontaneous
?=2L/n
39. 0
F=nv/2L
Convection
Pascal (Pa) N/m^2
Sin=0 cos=1
40. excess energy of a photon is...
The liquid itself not the object
Converted to extra kinetic energy of the emitted electron
P=i^2r
Image is always upright virtual and smaller
41. work done by non conservative force
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183
42. power is defined as
Rate of doing work
Converted to extra kinetic energy of the emitted electron
F=mv^2/r
Protons+neutrons
43. weight
W=mg=?Vg
X=(initial horizontal v)(time in air)
Longitudinal
1000 kg/m^3 or 1 g/cm^3
44. force experienced by moving charge traveling parallel or antiparallel to magnetic field
J=Force*Time=mv - mvo=?p
F=- F
Difference between the mass of nucleus and the sum of nucleons
None
45. type of heat transfer involving the physical motion of heated material
Counterclockwise is + clockwise is -
P=i^2R=V^2/R=IV
A Calorie is a nutritional term equal to 1000 calories
Convection
46. location of minima in diffraction pattern
?x=1/2(v+vo)t
Vo+at
F=E*A
A sin?=n?
47. mirror image is on same side as object
100% of the object will be submerged but will not sink
N*s/m^2
4 Hz
Real image
48. small moduli value
T=rFsin?
Perpendicular to each other
1/2mv^2
More malleable material
49. Find electric potential given electric field
E*r
E=neE n is excess charge
Difference between the mass of nucleus and the sum of nucleons
Diopters
50. a in isotopic notation
Mass number
Body in motion remains in motion unless net force acts upon it
Charge/length
Fluid resistance to flow
