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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. Instantaneous speed equals instantaneous velocity ____________.
scalar
in magnitude
Thermal Expansion
Hooke's Law

2. I. Linear: strain = ?L / L II. Shear: strain = ?x / L III. Volume: strain = ?V / V
Angular frequency
Ideal Gas Law
Torque force at Equilibrium
Three kinds of strain: unit - less ratios

3. Change in the apparent frequency of a wave as observer and source move toward or away from each other. Toward Away.
Doppler effect
Heat of a Phase Change
Magnetic Flux
negative work

4. PEGrav = P = mxgxh KELinear = K =
Thin Lens Equation
Mechanical Energy
Hooke's Law
Concept of force - units

5. 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.
Doppler effect
Concept of force - units
Center of Mass - point masses on a line
Weight

6. Sum of all torques acting on an object is zero. No net angular acceleration.
rotational equilibrium
Kinetic friction
For displacements and distances that approach zero - the instantaneous velocity equals
in magnitude

7. V2 = rxgxtan ?
normal force
Ohm's Law
Hooke's Law
Banked Circular Tracks

8. 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.
Magnification
Thin Lens Equation
Motion on an inclined plane
no work is done

9. Unlike friction - gravity always acts downwards. Thus - it does not matter what detour you take because sideward motion perpendicular to the gravitational force involves no work.
velocity
Amount of work done in gravitational field is path - independent
There are two kind of weightlessness
Torque

10. Periodic frequency resulting from the superposition of two waves that have slightly different frequencies. f(beat) = |f1- f2|
Snell's Law
Beats
Conservation of linear momentum
Hooke's Law

11. E=2.3110?

12. ?Q / ?t = kxAx?T / L k = thermal conductivity A = area of solid L = thickness of solid
To calculate the time the projectile is in the air
Blackbody Radiation and the Photoelectric Effect
Flow of Heat through a Solid
Torque forces

13. ( sin ?1 )/(sin ?2 ) = v1 /v2 = n2 /n1 = ?1 /?2 n = c/v
Inductors during an increase in current
Refraction
Friction - static and kinetic
Doppler Effect: when d is decreasing use + vo and - vs

14. Uniformly accelerated motion along a straight line
Laplace's Law
Average acceleration
Ohm's Law
Total momentum of 2 objects before a collision

15. The increase in volume of a substance due to an increase in temperature. Linear: ?L = Loxax?T Volume: ?V = VoxBetax?T
Conservation of linear momentum
terminal velocity
Work done on a gas or by a gas
Thermal Expansion

16. 1e0 (an electron);
Amount of work done in gravitational field is path - independent
beta (Beta) particle
Uniform circular motion
Vector addition

17. Total momentum before = total momentum after.
Ideal Gas Law
Energy (conservation)
Conservation of linear momentum
Thin Lens Equation

18. Y or S or B = stress / strain stress = F/A
Stress and Strain
Buoyant Force - Buoyancy
Average acceleration
Destructive interference

19. When a source emitting a sound and a detector receiving the sound move relative to each other - the virtual frequency vf' detected is less than (distance increases) or greater (distance decreases) than the actual emitted frequency. f' = f(V
equal and opposite
Continuity of Fluid Flow
Doppler Effect
Amount of work done in gravitational field is path - independent

20. b
Quadratic Formula
Density
To calculate the time the projectile is in the air
Angular Speed vs. Linear Speed

21. E = hxf = mxc2 h = Planck's constant = 6.63 E(-34) J sec f = frequency of the photon
Energy of a Photon or a Particle
Linear Expansion
Concept of a field
2nd Law of Thermodynamics

22. A force that is always in the direction to impede motion xLike any other force - friction is a vector. However - its direction is easy because it's always opposite to motion.
Lever
normal force
Friction - static and kinetic
Translational motion

23. In an object going down the inclined plane at constant velocity: parallel component of gravity...
= kinetic friction
universal gravitational constant
Anti node
vector and a vector

24. FF =
Friction Force
Resistance of a Wire
normal force
Flow of Heat through a Solid

25. F = BxAxcos ? Force caused by a magnetic field on a moving charge F = qxvxBxsin ?
a direction
Work - Power
Pressure under Water
Magnetic Flux

26. M = mo / Beta
Relativistic Mass Increase
Induced Voltage
Blackbody Radiation and the Photoelectric Effect
Kirchoff's Laws

27. 1/C? = 1/C1 + 1/C2 + 1/C3 + etc. **Voltages sum when capacitors are in series (V? = V1 + V2 + V3 ...)**
Capacitors in series
Newton's second law (F = ma)
Gravity
Newton's Second Law and Rotational Inertia

28. Roughly 50 orders of magnitude weaker than the strong force. Responsible for weight (not mass!). Also - responsible for planet orbits.
Periodic Waves
Bernoulli's Equation
same amount of work
Gravity

29. Accelerate toward the ground at a constant velocity.
Freely falling bodies
Concept of a field
larger
Relativistic Length Contraction

30. Every action has an equal and opposite reaction

31. Use the vertical component only- calculate the time it takes for the projectile to hit the ground.
work is negative
Freely falling bodies
To calculate the time the projectile is in the air
Relativistic Mass Increase

32. A = Aoxe - k t = (1/2n)xA0 (after n half - lives) Where k = (ln 2) / half - life
4 universal forces
Friction Force
Relativistic Time Dilation
Radioactive Decay Rate Law

33. Total kinetic energy before = total kinetic energy after.
Translational motion
same gravitational work
Conservation of kinetic energy
material properties

34. When you toss something straight up and it comes down to where it started - the displacement - s - for the entire trip is _. Initial velocity and acceleration are opposite in sign.
scalar and a scalar
Momentum - Impulse
0
Continuity (fluids)

35. Change in momentum:
Simple Pendulum
Impulse
Decibel Scale
The strong force: also called the nuclear force

36. The significance of Newton's first law on equilibrium is: things in equilibrium will remain in equilibrium unless acted on by an external force. Things resist change in momentum because of inertia (try stopping a truck. It's not easy because it resis

37. Applies to objects sitting still. An object can sit still on an inclined plane because of static friction.
Torque forces
Centripetal Force
speed
Static friction

38. Moving around a circle at constant speed - frequency = How many times the object goes around the circle in one second. Period = time it takes to move around the entire circle.
in magnitude
Heating a Solid - Liquid or Gas
simple harmonic motion
Friction - static and kinetic

39. The point of maximum displacement in a standing wave.
Anti node
Translational equilibrium (Sum of Fi = 0)
Resistance of a Wire
one direction as positive and another as negative

40. The normal force at an inclined plane is equal to the weight __________ of the incline angle (see inclined planes).
Torque
Lever
Rotational equilibrium (Sum of Torque = 0)
times the cosine

41. Distance travelled per unit time
Heating a Solid - Liquid or Gas
Pressure under Water
speed
Torque

42. Quantity described by magnitude but not direction (time - area - volume)
negative
Hooke's Law
scalar
0

43. F = BxAxcos ?
Relativistic Mass Increase
Sinusoidal motion
constant
Magnetic Flux

44. Real and apparent.
There are two kind of weightlessness
scalar
Torque
First Law of Thermodynamics

45. ?x = Betax?xo
same amount of work
Relativistic Length Contraction
Projectile Motion
Kirchoff's Laws

46. Whenever something is in the air - it's in a ___ - even when it is being tossed upwards - downwards or at an angle.
free fall
material properties
Deceleration
Ohm's Law

47. Horizontal: x-x?= v?xt + 0 Vertical: y-y? = v?xt +
Change in Internal Energy of a system
Projectiles
Projectile Motion
Coulomb's Law

48. Pulleys reduce the force you need to lift an object. The catch - it increases the required pulling distance. xComplex pulleys will have additional ropes that contribute to the pulling of the load (most likely not tested on the MCAT).
To calculate the time the projectile is in the air
Energy (conservation)
Analysis of pulley systems
There are two kind of weightlessness

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

50. Also called fundamental forces: Nuclear - electromagnetic - weak - gravity
Newton's third law - forces equal and opposite
Torque
Index of Refraction
4 universal forces