Test your basic knowledge |

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. P = ?xgxh h = depth of water ? = density of water
horizontal component
Induced Voltage
Pressure under Water
Magnetic Flux

2. V = IxR V = voltage applied I = current R = resistance

3. F=(p*q)/(p+q) - 1/f=1/p+1/q - f=focal length p=object distance q=image distance
Translational equilibrium (Sum of Fi = 0)
vector and a vector
Thin Lens Equation
Torque force at Equilibrium

4. 'rotational equivalent of force'; a force applied so as to cause an angular acceleration. t = FxLxsin ?
scalar and a scalar
Index of Refraction
Gravity
Torque

5. 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.
Heat of a Phase Change
Magnification
Conservation of kinetic energy
simple harmonic motion

6. A force that causes rotation. t = FxLxsin ? Where ? is the angle between F and L; unit: Nm
Centripetal Force (F=- mv2/r)
Simple Pendulum
Resistor's in parallel
Torque

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

8. Back and forth oscillatory motion corresponding to sound. x = Axcos(?xt) = Axcos(2xpxf xt) ? = angular frequency f = frequency
Torque force at Equilibrium
Sinusoidal motion
Projectiles
Energy of a Photon or a Particle

9. L1 = F1
Energy of a Photon or a Particle
Static friction
Torque forces
Freely falling bodies

10. 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.
vector and a vector
Equilibrium
Potential Energy stored in a Capacitor
Magnetic Field around a wire

11. 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
Inelastic collisions
Spring Force - Work
displacement
work is positive

12. You weigh more on an elevator accelerating up because F=mg + ma - where a is the ______________ of the elevator.
acceleration
Ideal Gas Law
fly off in a path tangent to the circle at the point of snap
Stress and Strain

13. Sliding down a frictionless inclined plane involves the __________ as doing a free fall at the same height.
Energy of a Photon or a Particle
same gravitational work
Newton's second law (F = ma)
Ohm's Law

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

15. Q = mxcx?T (no phase changes!) Q = the heat added c = specific heat. ?T = temperature change - K
Instantaneous velocity
Decibel Scale
Resistor's in parallel
Heating a Solid - Liquid or Gas

16. F=mv^2/R=m?r
acceleration
Real weightlessness
Torque force at Equilibrium
Centripetal Force

17. Use the vertical component only- calculate the time it takes for the projectile to hit the ground.
4 universal forces
Hooke's Law
Speed - velocity (average and instantaneous)
To calculate the time the projectile is in the air

18. The coefficient of friction is intrinsic to the ________ of the surface and the object - and is determined empirically.
Conservation of kinetic energy
material properties
Potential Energy stored in a Capacitor
normal force

19. 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
For displacements and distances that approach zero - the instantaneous velocity equals
Density
de Broglie Matter Waves
Newton's Second Law and Rotational Inertia

20. Total momentum before = total momentum after.
Gravity
Conservation of linear momentum
Equilibrium
Laplace's Law

21. R = ?xL / Ax ? = resistivity of wire material L = length of the wire Ax = cross - sectional area of the wire
equal and opposite
Resistance of a Wire
Force caused by a magnetic field on a moving charge
Doppler effect

22. Each resistor has the same current; differenct voltage drop. Total resistance = R1+R2+R3+. . .

23. Horizontal: x-x?= v?xt + 0 Vertical: y-y? = v?xt +
Projectile Motion
material properties
Density
When acceleration is constant and there is no change in direction

24. 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
Uniform circular motion
When acceleration is constant and there is no change in direction
velocity and displacement
Energy of a Photon or a Particle

25. Momentum is a vector - so be sure to assign _________________ when adding individual momenta in calculating the total momentum.
Potential Energy stored in a Capacitor
Ohm's Law
Center of mass
one direction as positive and another as negative

26. This is what we 'weightlessness' really means when we see astronauts orbiting in space. The astronauts are falling toward the earth due to gravitational forces (weight) - but they are falling at the same rate as their shuttle - so it appears that the
> kinetic friction
Poiseuille's Law
Lorentz Transformation Factor
Apparent weightlessness

27. When the centripetal force is taken away (Such as when the string snaps) - the object will...
fly off in a path tangent to the circle at the point of snap
Newton's Second Law and Rotational Inertia
Magnetic Flux
Work done on a gas or by a gas

28. C = ?xeoxA / d ? = dielectric constant A = area of plates d = distance between plates eo = 8.85 E(-12) F/m
scalar and a scalar
Beats
weakest
Capacitance of a Capacitor

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

30. The resistance encountered when one body is moved in contact with another. FF =
Work - Power
Friction
Momentum
Snell's Law

31. A measure of both the speed and direction of a moving object. V=?x/?t
To calculate how far did the projectile travel
Simple Harmonic Motion
Flow of Heat through a Solid
velocity

32. T = FxLxsin ? Where ? is the angle between F and L; unit: Nm
Torque
Center of mass
Translational motion
Kirchoff's Laws

33. The ____________ of g toward the Earth holds true at all times - even when the projectile is traveling up (it's decelerating on its way up - which is the same thing as accelerating down).
Center of Mass - point masses on a line
vertical acceleration
Analysis of pulley systems
> static friction

34. The angular equivalent of a force - it makes things rotate - have angular acceleration - change angular velocity and direction.
Torque
vertical acceleration
Torques - lever arms
Inelastic collisions

35. ?P = 8x?xLxQ/(pxr4) ? = coefficient of viscosity L = length of pipe r = radius of pipe Q = flow rate of fluid

36. P =
effort decreases
terminal velocity
Potential Energy stored in a Capacitor
Simple Pendulum

37. (physics) a rate of change of velocity
acceleration
There are two kind of weightlessness
Translational equilibrium (Sum of Fi = 0)
Constructive interference

38. 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.
Freely falling bodies
Sinusoidal motion
velocity and displacement
Doppler Effect: when d is decreasing use + vo and - vs

39. Accelerate toward the ground at a constant velocity.
Concept of a field
Freely falling bodies
Newton's Second Law and Rotational Inertia
To calculate how far did the projectile travel

40. 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.
Electric Power
Friction - static and kinetic
Stress and Strain
Average acceleration

41. For a given mass - its weight on Earth is different from its weight on the _____.
Moon
Kirchhoff's rules
work is positive
Stress and Strain

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

43. P =
Deceleration
Amount of work done in gravitational field is path - independent
Universal Gravitation
Potential Energy stored in a Capacitor

44. 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.
Newton's first law - inertia
Magnification
Ohm's Law
9.8 m/s2

45. I = Q/t and R = ?l/A
Current and Resistance
> static friction
Capacitance of a Capacitor
Kirchoff's Laws

46. In an object that begins to slip on the inclined plane: parallel component of gravity...
Decibel Scale
Radioactive Decay Rate Law
> static friction
Quadratic Formula

47. Roughly 10 orders of magnitude weaker than the strong force. Responsible for radioactive decay.
Weak force
Work done on a gas or by a gas
Potential Energy stored in a Capacitor
Continuity of Fluid Flow

48. Even though they are accelerating toward the Earth - they never crash into the Earth's surface because the Earth is _____ (the surface curves away from the satellite at the same rate as the satellite falls).
Doppler Effect
work is positive
no work is done
round

49. B=
Resistance of a Wire
Magnetic Field around a wire
Friction
Induced Voltage

50. RESISTANCE=VOLTAGE/CURRENT. V = IxR