SUBJECTS
|
BROWSE
|
CAREER CENTER
|
POPULAR
|
JOIN
|
LOGIN
Business Skills
|
Soft Skills
|
Basic Literacy
|
Certifications
About
|
Help
|
Privacy
|
Terms
|
Email
Search
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. electric work
Intensity
Low voltage to high voltage
N is proportional to 1/?
U=q?v
2. polarized light
Ceq=C1+C2+C3 Veq=V1=V2=V3
Electric fields of all the light waves are oriented in the same direction
Voltage
J=Force*Time=mv - mvo=?p
3. The bigger the cross - section of a resistor..
More flow less resistance
V=kQ/r
Vbulk modulus
V=IR
4. work as it relates to constant force
No net force acting on it
N=c/v
W=Fdcos?
Charge/length
5. energy of photon
E=???=hc/?
J=Force*Time=mv - mvo=?p
(Vo+v)/2
F=q/e0
6. surface tension results from
Ceq=C1+C2+C3 Veq=V1=V2=V3
T=rFsin?
Number of protons in nucleus
Cohesion
7. a lightbulb in a circuit is a
P=IV
Virtual upright
Beta=10Log(I/Io)
Resistor
8. relate velocities and displacement 2 ways
V^2=vo^2+2a?x ?x=1/2(vo+v)t
U=QV
Fusion
Substance is more dense then water
9. all harmonics have the same
Beta=10Log(I/Io)
Wave speed
Charge/length
Internal resistance is zero voltage=emf
10. atomic mass number represents
2pr
New/old
Hydrostatics
Protons+neutrons
11. tone with shortest period has
Difference between the absolute and atm pressure Pg=P- Patm
V=kq/r
The shortest wavelength
X=(initial horizontal v)(time in air)
12. Newtons 2nd law of motion
image/object
F=ma
373K 100
Incident ray
13. 90
Current*voltage
Sin=v2/2 cos=v2/2
Mass
Sin=1 cos=0
14. work function
Light emitted due to heat
Intensity
F=I(L*B)
Energy required to free electron from given metal
15. plane mirrors create What type of image
Virtual
When in parallel
?=m/v kg/m^3 g/ml g/cm^3
1/Ceq=1/C1+1/C2+1/C3 Veq=V1+V2+V3
16. units for newtons
Is equal to gravitational force
Kg*m/s^2
image/object
Fnet=0 thus Fg=Fs mg=kx
17. period of spring
K+U=constant
W=qv
2pvm/k
E=1/2k(A^2)
18. material with moderate resistance
?L=aL?T
Vbulk modulus
Wave speed
Resistor
19. magnetic field force on current carrying wire
More flow less resistance
F=I(L*B)
Electric fields of all the light waves are oriented in the same direction
?=4L/n
20. magnitude of magnetic field for current carrying wire
None
Beta=
As speed of fluid increases pressure and potential energy decrease
F=Gm1m2/r^2
21. angular frequency of spring ?
?=vk/m=2p??
Moving charge
C=Q/V
Mass
22. only radioactive decay that conserves the nucleus charge
???
Radiation
When velocity of the fluid exceeds critical velocity
Gamma decay
23. resistance in parallel
Neutron is converted into a proton and an electron is emitted
1/Req=1/R1+1/R2+1/R3 Veq=V1=V2=V3
Resistor
?V=BetaV?T
24. sound waves are what kind of waves
Equilibrium position
Longitudinal
Minimum frequency of light that will cause emission of an electron
???
25. electric field of parallel plate capacitor
Kg*m/s^2
E=V/d
Wave speed
F/A
26. focal length
F=q/e0
1/f=1/o+ 1/i
B=(F/A)/(?V/V)
Y=(F/A)/(?L/L) stress over strain
27. atoms atomic number represents
Number of protons in nucleus
(1/2)?v^2
N*s/m^2
Vo^2+2a(?x)
28. volumetric rate of flow (property)
Constant for closed system independent of changes in area
Converted to extra kinetic energy of the emitted electron
F=Gm1m2/r^2
F=r/2
29. reflection law
Decrease in pressure that fluid exerts on the walls of the container
Angle of incidence=angle of reflection
Upright image
4 Hz
30. for photoelectric material to liberate an electron
Photon energy must be greater than work function of the material
273K 0
Req=R1+R2+R3 Veq=V1+V2+V3
F=1/2(r)
31. cohesion
Force a molecule of liquid feels toward the other molecules of the liquid
Convection
Difference between the mass of nucleus and the sum of nucleons
MRT
32. audible wave frequency
Work/time
20 Hz to 20 -000 Hz
New/old
Diopters
33. wave velocity=
Wave speed
1/Req=1/R1+1/R2+1/R3 Veq=V1=V2=V3
???
More rigid material
34. boiling point of H2O in K and C
Energy gained by particle with charge of e when moved through one volt
373K 100
Vo^2+2a(?x)
Derive universal gravitation equation
35. speed of the spring
?=2L/n
C=e(A/d)
V=?A
Convection
36. material with very high resistance
Virtual upright
Insulator
Q=mL
F=xk=mg
37. meaning of Bernouili's equation
E=Pt
As speed of fluid increases pressure and potential energy decrease
Spreading out of light as it passes through a narrow opening
Pascal (Pa) N/m^2
38. force due to electric field on single charge
E=neE n is excess charge
W=mg=?Vg
Force a molecule of liquid feels toward the other molecules of the liquid
U=QV
39. power of sound wave
P=IA
New/old
F=nv/2L
C=Q/V
40. temperature and resistors
Beta=
Virtual
F=xk=mg
Higher temperature increases resistance
41. relate focal length and radius of curvature(r)
image/object
Force and acceleration
F=r/2
J=Force*Time=mv - mvo=?p
42. unit for energy beside J
EV
When velocity of the fluid exceeds critical velocity
U=QV
??=nv/4L
43. under content acceleration v^2=
Minimum frequency of light that will cause emission of an electron
V=?A
P=1/f
Vo^2+2a(?x)
44. electrical power
N*s/m^2
P=IV
?=2L/n
Incident ray
45. body in translational equilibrium
Hydrostatics
No net force acting on it
(1/2)?v^2
W=qv
46. under constant acceleration V(average)=
(Vo+v)/2
Emf is negative
Zero resistance
2
47. voltage of AC
Body in motion remains in motion unless net force acts upon it
Electric fields of all the light waves are oriented in the same direction
Vrms=Vmax/v2
?=2L/n
48. to find acceleration due to gravity
Derive universal gravitation equation
Insulator
New/old
F=qvBetasin?
49. units for power
WATTS
Sin=1 cos=0
Wave speed
3
50. resistance in series
Yield strength
Insulator
J=Force*Time=mv - mvo=?p
Req=R1+R2+R3 Veq=V1+V2+V3