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MCAT Physics

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. ?S = Q / T (Phase changes only: melting - boiling - freezing - etc)
Electric Power
Destructive interference
Entropy change at constant T
work is positive

2. V = f x? f = 1 / T T = period of wave
Periodic Waves
Relativistic Mass Increase
The strong force: also called the nuclear force
Centripetal Force

3. (physics) a rate of change of velocity
acceleration
Momentum - Impulse
Projectile Motion
Newton's first law - inertia

4. F = - kx and W = kx2 /2
Index of Refraction
Banked Circular Tracks
Spring Force - Work
Vector addition

5. When something is laying still on a horizontal surface - the normal force is ___________ to the weight.
Freely falling bodies
equal and opposite
Radioactive Decay Rate Law
universal gravitational constant

6. Fo = fs (V
Doppler Effect: when d is decreasing use + vo and - vs
Bernoulli's Equation
Electric Power
same gravitational work

7. The velocity is always less or equal to the speed. The displacement is always less or equal to the distance. Displacement and velocity are vectors. Distance and speed are not.
Heating a Solid - Liquid or Gas
Resistor's in parallel
velocity and displacement
Torque force at Equilibrium

8. Sliding down a frictionless inclined plane involves the __________ as doing a free fall at the same height.
negative
same gravitational work
Translational motion
horizontal component

9. Gravity decreases with the square of the distance. If the distance increases two fold - gravity decreases by a factor of four.
one direction as positive and another as negative
Law of gravitation (F = Gm1m2/r^2)
vector and a scalar
horizontal component

10. F = BxAxcos ?
Energy (conservation)
normal force
Sinusoidal motion
Magnetic Flux

11. Loop Rule: SAround any loop ?Vi = 0 Node Rule: Sat any node Ii = 0

12. N1xsin ?1 = n2xsin ?2

13. For a given mass - its weight on Earth is different from its weight on the _____.
Torque force at Equilibrium
Energy of a Photon or a Particle
Moon
Conservation of linear momentum

14. b
weakest
Quadratic Formula
Universal Gravitation
Relativistic Length Contraction

15. DF = dq v(B sin a) = I dl(B sin a)

16. The speed.
When acceleration is constant and there is no change in direction
Motion on an inclined plane
Resistor's in series
For displacements and distances that approach zero - the instantaneous velocity equals

17. Si = 0 at a junction and S?V = 0 in a loop

18. RESISTANCE=VOLTAGE/CURRENT. V = IxR

19. +Net Heat added to the system +Net Work done on the system
Center of Mass - point masses on a line
Change in Internal Energy of a system
Lenz's Law
Resistor's in parallel

20. Instantaneous speed equals instantaneous velocity ____________.
Magnetic Flux
Lenz's Law
in magnitude
Momentum - Impulse

21. Friction always does ___________ because frictional forces always act against the direction of motion.
negative work
Hooke's Law
vertical acceleration
Linear Momentum

22. Friction acts ________ to the plane surface and opposite to the direction of motion. In a non - moving object on an inclined plane: normal component of gravity = normal force; parallel component of gravity = static friction.
parallel
velocity and displacement
vector and a scalar
same amount of work

23. PEGrav = P = mxgxh KELinear = K =
Projectile Motion
Mechanical Energy
one direction as positive and another as negative
simple harmonic motion

24. For light: Ep = hxf = hxc / ? = pxc Therefore - momentum: p = h / ? Similarly for particles - p = mxv = h / ? - so the matter wave's wavelength must be ? = h / m v
Translational equilibrium (Sum of Fi = 0)
de Broglie Matter Waves
Relativistic Time Dilation
The displacement for a quarter around the circle (pi/4 radians or 45 degrees) - the displacement

25. F=mv^2/R=m?r
effort decreases
Mechanical Energy
Centripetal Force
Resistor's in parallel

26. ET = Ek + Ep and E = mc2
times the cosine
the normal component of gravity
Energy (conservation)
Sinusoidal motion

27. Addition of two waves when the crest of one overlaps the crest of another - so that their individual effects add together. The result is a wave of increased amplitude.
Simple Harmonic Motion
Constructive interference
Electromagnetic force
parallel

28. The weakness of gravity is reflected in the ____________ - G - which is orders of magnitude smaller than the Coulomb's constant.
universal gravitational constant
negative work
Linear Expansion
scalar

29. There is no acceleration in the ________. The horizontal component of velocity is constant.
vector and a vector
horizontal component
Work
Translational equilibrium (Sum of Fi = 0)

30. Also called fundamental forces: Nuclear - electromagnetic - weak - gravity
displacement
Ohm's Law
Newton's first law - inertia
4 universal forces

31. Acceleration in the opposite direction.
Rotational equilibrium (Sum of Torque = 0)
Momentum - Impulse
Deceleration
Friction - static and kinetic

32. The force that acts on a mass - It has a magnitude and a direction. It is a vector. Because it is a force - F=ma holds true.
Weight
static friction
Change in Internal Energy of a system
Hooke's Law

33. E = hxf = mxc2 h = Planck's constant = 6.63 E(-34) J sec f = frequency of the photon
Relativistic Mass Increase
Energy of a Photon or a Particle
Magnetic Field around a wire
Potential Energy stored in a Capacitor

34. Conservation of momentum only - ?Kinetic energy is lost during an inelastic collision - Collisions in everyday life are inelastic to varying extents - When things stick together after a collision
negative
Deceleration
Orbiting in space
Inelastic collisions

35. Roughly 50 orders of magnitude weaker than the strong force. Responsible for weight (not mass!). Also - responsible for planet orbits.
For displacements and distances that approach zero - the instantaneous velocity equals
velocity and displacement
Projectiles
Gravity

36. V2 = rxgxtan ?
Banked Circular Tracks
Hooke's Law
Newton's third law - forces equal and opposite
There are two kind of weightlessness

37. An object's mass times its velocity. Measures the amount of motion in a straight line. momentum = p = mxv = mass x velocity momentum is conserved in collisions
Linear Momentum
a direction
Average acceleration
Motion on an inclined plane

38. Satellites orbiting the Earth are in free fall. Their centripetal acceleration equals the acceleration from the Earth's gravity.
Magnetic Field around a wire
Sinusoidal motion
Rotational equilibrium (Sum of Torque = 0)
Orbiting in space

39. Mass / volume (unit : kg /m3 ) ? = m/v
Heat of a Phase Change
4 universal forces
Anti node
Density

40. The ______ arm consists of a rigid rod and a fulcrum (where the center of rotation occurs). The torque is the same at all positions of the lever arm (both on the same side and on the other side of the fulcrum). ?If you apply a force at a long distanc
parallel
Doppler Effect: when d is decreasing use + vo and - vs
Hooke's Law
Lever

41. Back and forth oscillatory motion corresponding to sound. x = Axcos(?xt) = Axcos(2xpxf xt) ? = angular frequency f = frequency
Sinusoidal motion
Newton's second law (F = ma)
Newton's Second Law
no work is done

42. Roughly 10 orders of magnitude weaker than the strong force. Responsible for radioactive decay.
Kirchoff's Laws
Weak force
Equilibrium
Poiseuille's Law

43. The resistance encountered when one body is moved in contact with another. FF =
Friction
Constructive interference
work is negative
Simple Harmonic Motion

44. A = Aoxe - k t = (1/2n)xA0 (after n half - lives) Where k = (ln 2) / half - life
Work - Power
Radioactive Decay Rate Law
same amount of work
Analysis of pulley systems

45. ? + ?gh + 1/2 ?v2 = constant

46. The hypotenuse of a right - angled triangle with the radius as the other two sides. Using Pythagoras - the displacement is square root of 2r^2. The distance is the arc of 1/4 circumference.
The displacement for a quarter around the circle (pi/4 radians or 45 degrees) - the displacement
Conservation of linear momentum
Continuity of Fluid Flow
Kirchhoff's rules

47. R = ?xL / Ax ? = resistivity of wire material L = length of the wire Ax = cross - sectional area of the wire
Magnification
material properties
Kinetic friction
Resistance of a Wire

48. F = kxx Potential Energy of a spring W =

49. M = - Di / Do = - i / o = Hi / Ho - Dimensionless value denoted by m given by the equation: m = - i/o - where i is image height and o is object height. A negative m denotes an inverted image - whereas a positive m denotes an upright image.
Laplace's Law
Lorentz Transformation Factor
Magnification
Torque

50. VL = Vcellxe - t / (L / R) I = (Vcell/R)x[ 1 - e - t / (L / R) ] L / R = t = time constant
Equilibrium
Inductors during an increase in current
Anti node
Work