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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. F=g(m1m2/r^2) G = 6.67 E-11 N m
Banked Circular Tracks
Universal Gravitation
no work is done
Heat of a Phase Change

2. About one order of magnitude weaker than the strong force - but it can act at observable distances. Binds atoms together. Allows magnets to stick to your refrigerators. It is responsible for the fact that you are not falling through your chair right
Electromagnetic force
larger
Apparent weightlessness
Elastic collisions

3. Conservation of both momentum and kinetic energy - e.g. if you drop a ball and the ball bounces back to its original height
The strong force: also called the nuclear force
Instantaneous velocity
velocity and displacement
Elastic collisions

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

5. The value of speed/velocity - distance/displacement are interchangeable in this case - just keep a mental note of the direction. Ave acceleration = change in velocity / time
Potential Energy stored in a Capacitor
When acceleration is constant and there is no change in direction
negative
Capacitors in parallel

6. F=(p*q)/(p+q) - 1/f=1/p+1/q - f=focal length p=object distance q=image distance
no work is done
Thin Lens Equation
Continuity (fluids)
in magnitude

7. Are free falling bodies.
Friction - static and kinetic
Projectiles
Force caused by a magnetic field on a moving charge
Spring Force - Work

8. A hypothetical pendulum suspended by a weightless frictionless thread of constant length. f = 1/ T and T=2p(sqrt L/g)
Simple Pendulum
effort decreases
de Broglie Matter Waves
Angular frequency

9. Operation involving a ___________ always results in a vector.
Gravity
vector and a scalar
There are two kind of weightlessness
horizontal component

10. The weakness of gravity is reflected in the ____________ - G - which is orders of magnitude smaller than the Coulomb's constant.
Torque forces
Buoyant Force - Buoyancy
universal gravitational constant
Projectile Motion

11. Whenever something is in the air - it's in a ___ - even when it is being tossed upwards - downwards or at an angle.
Electric Power
vector and a vector
Universal Gravitation
free fall

12. A force that causes rotation. t = FxLxsin ? Where ? is the angle between F and L; unit: Nm
parallel
Instantaneous velocity
Torque
normal force

13. Kinetic energy is __________ - so there are no positive / negative signs to worry about.
Magnetic Flux
Magnification
Ohm's Law
scalar

14. F = - kx and W = kx2 /2
Spring Force - Work
displacement
Magnification
velocity

15. Vibration about an equilibrium position in which a restoring force is proportional to the displacement from equilibrium. T=2p(sqrt(m)/(k)) where k = spring constant = 1 / T = 1 / period
> static friction
Poiseuille's Law
weakest
Simple Harmonic Motion

16. xW = Fdcos? - F is force - d is the distance over which the force is applied - and ? is the angle between the force and distance. xDerived units - sign conventions - It is energy - and the unit is the Joule - Joule = N
Work
Energy Released by Nuclear Fission or Fusion Reaction
velocity and displacement
Relativistic Length Contraction

17. The average distance - weighted by mass - in a Cartesian coordinate - it is the point obtained by doing a weighted average for all the positions by their respective masses.
Torques - lever arms
Kirchhoff's rules
2nd Law of Thermodynamics
Center of mass

18. X = Axcos(?xt) = Axcos(2xpxf xt) ? = angular frequency f = frequency
Momentum
Newton's third law - forces equal and opposite
Sinusoidal motion
Inductors during an increase in current

19. The point of maximum displacement in a standing wave.
Center of Mass - point masses on a line
Linear Momentum
Torque forces
Anti node

20. Vector - has direction - rate of change in displacement.
Banked Circular Tracks
velocity
Translational equilibrium (Sum of Fi = 0)
Magnification

21. A net force acting on an object will cause that object to accelerate in the direction of the net force. The unit for force is the Newton. Both force and acceleration are vectors because they have a direction.

22. When something is in __________ - the vector sum of all forces acting on it = 0. When something is in ____________ - it is either at rest or moving at constant velocity. When something is in ___________ - there is no overall acceleration.
Average acceleration
Instantaneous velocity
Energy (conservation)
Equilibrium

23. Sliding down a frictionless inclined plane involves the __________ as doing a free fall at the same height.
Magnetic Flux
Thermodynamics
Linear Momentum
same gravitational work

24. Roughly 50 orders of magnitude weaker than the strong force. Responsible for weight (not mass!). Also - responsible for planet orbits.
Beats
Decibel Scale
Blackbody Radiation and the Photoelectric Effect
Gravity

25. T = torque = Ixa I = moment of inertia = mxr

26. Mass per unit of volume.?=m/V(unit : kg /m3 )
Density
Conservation of kinetic energy
Translational motion
Weight

27. The acceleration produced by a net force on a body is directly proportional to the magntude of the net force - is in the same direction as the net force - and is inversely proportional to the mass of the body. Fnet = SFExt = mxa

28. The resistance encountered when one body is moved in contact with another. FF =
Three kinds of strain: unit - less ratios
Energy (conservation)
in magnitude
Friction

29. Every action has an equal and opposite reaction

30. ET = Ek + Ep and E = mc2
Angular frequency
Hooke's Law
Poiseuille's Law
Energy (conservation)

31. Mass / volume (unit : kg /m3 ) ? = m/v
larger
Density
The strong force: also called the nuclear force
For displacements and distances that approach zero - the instantaneous velocity equals

32. The angular equivalent of a force - it makes things rotate - have angular acceleration - change angular velocity and direction.
Centripetal Force (F=- mv2/r)
Ohm's Law
velocity
Torques - lever arms

33. Satellites orbiting the Earth are in free fall. Their centripetal acceleration equals the acceleration from the Earth's gravity.
Capacitors in series
Torques - lever arms
Orbiting in space
Thermal Expansion

34. 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.
Buoyant Force - Buoyancy
Amount of work done in gravitational field is path - independent
Speed - velocity (average and instantaneous)
0

35. Acceleration in the opposite direction.
Deceleration
one direction as positive and another as negative
Apparent weightlessness
same amount of work

36. RESISTANCE=VOLTAGE/CURRENT. V = IxR

37. mv - where m is mass - v is velocity and the symbol for momentum is p. xImpulse = Ft - where F is force and t is the time interval that the force acts.
free fall
Momentum
Friction - static and kinetic
Friction

38. Mass/volume p= m/V
Real weightlessness
Density
Energy of a Photon or a Particle
Newton's Second Law

39. xSpeed: scalar - no direction - rate of change in distance.
For displacements and distances that approach zero - the instantaneous velocity equals
Speed - velocity (average and instantaneous)
Law of gravitation (F = Gm1m2/r^2)
Banked Circular Tracks

40. V2 = rxgxtan ?
Relativistic Time Dilation
0
2nd Law of Thermodynamics
Banked Circular Tracks

41. P = I
Weight
Periodic Waves
Electric Power
Thermodynamics

42. On Earth - the rate of acceleration is g - which is ______.
equal and opposite
speed
9.8 m/s2
To calculate the time the projectile is in the air

43. The velocity at an instant (infinitesimal time interval).
Elastic collisions
Three kinds of strain: unit - less ratios
Refraction
Instantaneous velocity

44. 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.
When acceleration is constant and there is no change in direction
0
> static friction
larger

45. 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.
terminal velocity
Simple Pendulum
Destructive interference
Weight

46. When something is laying still on an inclined plane - the normal force and friction force adds up in a _________ to equal the weight.
scalar
Heat of a Phase Change
Sinusoidal motion
vector fashion

47. 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.
one direction as positive and another as negative
Bernoulli's Equation
Instantaneous velocity
Magnification

48. 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.
Moon
velocity and displacement
Instantaneous velocity
Gravity

49. It makes things accelerate - change velocity or change direction. In the MCAT - it is indicated by an arrow. The direction of the arrow is the direction of the force. The magnitude of the force is often labeled beside the arrow. F=ma - so the unit f
Instantaneous speed
displacement
9.8 m/s2
Concept of force - units

50. A measure of both the speed and direction of a moving object. V=?x/?t
displacement
Work
Capacitors in parallel
velocity