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. 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
Lenz's Law
Relativistic Mass Increase
Work
Projectiles

2. W = Px?V
Work done on a gas or by a gas
Total momentum of 2 objects before a collision
material properties
Heat of a Phase Change

3. There is no acceleration in the ________. The horizontal component of velocity is constant.
parallel
Force caused by a magnetic field on a moving charge
no work is done
horizontal component

4. 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
Newton's first law - inertia
Simple Harmonic Motion
Capacitors in series
Centripetal Force (F=- mv2/r)

5. Y or S or B = stress / strain stress = F/A
Stress and Strain
Hooke's Law
acceleration
Constructive interference

6. For a given mass - its weight on Earth is different from its weight on the _____.
Moon
2nd Law of Thermodynamics
same gravitational work
Potential Energy stored in a Capacitor

7. Satellites orbiting the Earth are in free fall. Their centripetal acceleration equals the acceleration from the Earth's gravity.
Bernouilli's Equation
vector fashion
Relativistic Length Contraction
Orbiting in space

8. If the force is acting in one direction - but the object moves in a perpendicular direction - then...
Resistor's in series
Spring Force - Work
Constructive interference
no work is done

9. F=g(m1m2/r^2) G = 6.67 E-11 N m
Universal Gravitation
Magnification
Bernoulli's Equation
Weight

10. ET = Ek + Ep and E = mc2
Energy (conservation)
horizontal component
For displacements and distances that approach zero - the instantaneous velocity equals
Induced Voltage

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

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

13. Instantaneous velocity has ________ - instantaneous speed does not.
universal gravitational constant
Simple Harmonic Motion
a direction
> static friction

14. V = f x? f = 1 / T T = period of wave
Momentum
Kinetic friction
Periodic Waves
Magnetic Field around a wire

15. SFx = 0 and SFy = 0
Torque force at Equilibrium
universal gravitational constant
Freely falling bodies
Amount of work done in gravitational field is path - independent

16. ?Q / ?t = kxAx?T / L k = thermal conductivity A = area of solid L = thickness of solid
Flow of Heat through a Solid
Amount of work done in gravitational field is path - independent
velocity
There are two kind of weightlessness

17. B=
Kirchhoff's rules
Buoyant Force - Buoyancy
Kirchoff's Laws
Magnetic Field around a wire

18. If the force and the distance applied is in opposite directions...
Momentum
Impulse = Change in Momentum
Quadratic Formula
work is negative

19. 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.
Sinusoidal motion
The displacement for a quarter around the circle (pi/4 radians or 45 degrees) - the displacement
Radioactive Decay Rate Law
Torque

20. 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.
Energy Released by Nuclear Fission or Fusion Reaction
Torques - lever arms
Doppler Effect: when d is decreasing use + vo and - vs
Constructive interference

21. Operation involving a ___________ always results in a vector.
Energy of a Photon or a Particle
a direction
vector and a scalar
Thermodynamics

22. 1. Absolute - uniform motion cannot be detected. 2. No energy or mass transfer can occur at speeds faster than the speed of light
Postulates of Special Relativity
To calculate how far did the projectile travel
Beats
Constructive interference

23. 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).
round
To calculate the time the projectile is in the air
Lorentz Transformation Factor
Bernoulli's Equation

24. When things are at translational equilibrium - the vector sum of all forces = 0. Things at ______________ either don't move - or is moving at a constant velocity. If an object is accelerating - it's not in equilibrium.
Momentum
Sinusoidal motion
Translational equilibrium (Sum of Fi = 0)
When acceleration is constant and there is no change in direction

25. 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
Buoyant Force - Buoyancy
Friction Force
Concept of force - units
Stress and Strain

26. F = - kx and W = kx2 /2
Universal Gravitation
same gravitational work
Spring Force - Work
Simple Harmonic Motion

27. (physics) a rate of change of velocity
round
To calculate how far did the projectile travel
Magnetic Field around a wire
acceleration

28. 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
Lever
Momentum
one direction as positive and another as negative
Work - Power

29. 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
Ideal Gas Law
Newton's first law - inertia
To calculate the time the projectile is in the air
de Broglie Matter Waves

30. P = ?xgxh h = depth of water ? = density of water
times the cosine
Pressure under Water
terminal velocity
weakest

31. In an object going down the inclined plane at constant velocity: parallel component of gravity...
2nd Law of Thermodynamics
Torque force at Equilibrium
Simple Pendulum
= kinetic friction

32. Mass/volume p= m/V
same gravitational work
Density
negative
Ideal Gas Law

33. 1/R? = 1/R1 + 1/R2 + 1/R3 + etc. **When resistors are in parallel - the voltage drop is equal across the entire combination - i.e. V? = V1 = V2 = V3 = ...**

34. C? = C1 + C2 + C3 + etc. **When capacitors are in parallel - the voltage drop is equal across the entire combination - i.e. V? = V1 = V2 = V3 = ...**
Capacitors in parallel
kinetic friction
Electromagnetic force
Blackbody Radiation and the Photoelectric Effect

35. Horizontal: x-x?= v?xt + 0 Vertical: y-y? = v?xt +
Equilibrium
Stress and Strain
Three kinds of strain: unit - less ratios
Projectile Motion

36. Momentum is a vector - so be sure to assign _________________ when adding individual momenta in calculating the total momentum.
Thermal Expansion
Magnetic Field around a wire
one direction as positive and another as negative
Conservation of kinetic energy

37. P =
Centripetal Force (F=- mv2/r)
kinetic friction
Freely falling bodies
Potential Energy stored in a Capacitor

38. The 'distance' is the distance from the center of mass between the two objects. Gravity is the _______ of the four universal forces.
Resistance of a Wire
a direction
weakest
universal gravitational constant

39. 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

40. First get the time in the air by the vertical component. Then use the horizontal component's speed x time of flight. (Don't even think about over - analyzing and try to calculate the parabolic path).
9.8 m/s2
Magnetic Field around a wire
2nd Law of Thermodynamics
To calculate how far did the projectile travel

41. A measure of both the speed and direction of a moving object. V=?x/?t
Newton's second law (F = ma)
velocity
Resistor's in parallel
Postulates of Special Relativity

42. For the purposes of the MCAT - these are lines. When lines are close together - that's shows a strong field. When lines are far apart - that shows a weak field. Lines / fields have direction too - and that means they are vectors. Things travel parall
Coulomb's Law
Concept of a field
Sinusoidal motion
Laplace's Law

43. Real and apparent.
Ohm's Law
There are two kind of weightlessness
in magnitude
Relativistic Mass Increase

44. ?S = Q / T (Phase changes only: melting - boiling - freezing - etc)
Projectiles
Inductors during an increase in current
Entropy change at constant T
First Law of Thermodynamics

45. F=mv^2/R=m?r
Centripetal Force
scalar and a scalar
Bernoulli's Equation
free fall

46. xYou can only directly add vectors if they are in the same direction - To add vectors in different directions - you must add their x - y and z components. The resulting components make up the added vector.
Centripetal Force (F=- mv2/r)
Weak force
Vector addition
The displacement for a quarter around the circle (pi/4 radians or 45 degrees) - the displacement

47. Sum of all torques acting on an object is zero. No net angular acceleration.
Universal Gravitation
rotational equilibrium
work is negative
velocity

48. I = F ?t = ?M and M=mv
Potential Energy stored in a Capacitor
Momentum - Impulse
Force caused by a magnetic field on a moving charge
Conservation of kinetic energy

49. At ___________ - weight = friction - so the net force is 0. Thus - the acceleration is 0. So - the speed stays constant at terminal velocity
terminal velocity
Torque forces
Static friction
Newton's second law (F = ma)

50. F=(p*q)/(p+q) - 1/f=1/p+1/q - f=focal length p=object distance q=image distance
negative work
Relativistic Mass Increase
Doppler Effect
Thin Lens Equation