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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. The velocity at an instant (infinitesimal time interval).
vertical acceleration
velocity and displacement
Entropy change at constant T
Instantaneous velocity

2. X = Axcos(?xt) = Axcos(2xpxf xt) ? = angular frequency f = frequency
Sinusoidal motion
Torque force at Equilibrium
displacement
Angular Speed vs. Linear Speed

3. +Net Heat added to the system +Net Work done on the system
Weak force
Change in Internal Energy of a system
simple harmonic motion
horizontal component

4. Unless the object levitates or crashes through the inclined plane - the normal force always equals...
the normal component of gravity
To calculate the time the projectile is in the air
Laplace's Law
Uniform circular motion

5. Acceleration in the opposite direction.
Potential Energy stored in a Capacitor
Spring Force - Work
Deceleration
= kinetic friction

6. Ainxvin = Aoutxvout A= Area v = velocity
Continuity of Fluid Flow
Angular Speed vs. Linear Speed
vertical acceleration
Lenz's Law

7. A v = const. and ?Av = const.
Average acceleration
Pressure under Water
The momentum of a bomb at rest
Continuity (fluids)

8. A = Aoxe - k t = (1/2n)xA0 (after n half - lives) Where k = (ln 2) / half - life
Work done on a gas or by a gas
Kirchhoff's rules
Radioactive Decay Rate Law
Speed of a Wave on a String

9. VL = Vcellxe - t / (L / R) I = (Vcell/R)x[ 1 - e - t / (L / R) ] L / R = t = time constant
Inductors during an increase in current
material properties
Speed - velocity (average and instantaneous)
negative

10. 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.
Work
Torques - lever arms
Newton's Second Law
Center of mass

11. The principle whereby every energy transfer or transformation increases the entropy of the universe. Ordered forms of energy are at least partly converted to heat - and in spontaneous reactions - the free energy of the system also decreases. ?U = QAd
2nd Law of Thermodynamics
> static friction
Hooke's Law
Flow of Heat through a Solid

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

13. Motion of a particle fom point A to point B. x = x 0 + v 0 t + 1/2at2 and V
Translational motion
Elastic collisions
To calculate how far did the projectile travel
Apparent weightlessness

14. When things are at rotational equilibrium - there the sum of all torques = 0.
Periodic Waves
Rotational equilibrium (Sum of Torque = 0)
Pressure under Water
Energy (conservation)

15. 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
rotational equilibrium
fly off in a path tangent to the circle at the point of snap
Three kinds of strain: unit - less ratios

16. Satellites orbiting the Earth are in free fall. Their centripetal acceleration equals the acceleration from the Earth's gravity.
Torque forces
Orbiting in space
Vector addition
4 universal forces

17. W = Px?V
Work done on a gas or by a gas
Apparent weightlessness
times the cosine
Total momentum of 2 objects before a collision

18. F=mv^2/R=m?r
Centripetal Force
vector and a vector
Speed of a Wave on a String
Magnetic Field around a wire

19. 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
Continuity of Fluid Flow
Momentum - Impulse
rotational equilibrium
Inelastic collisions

20. _____________ of all components of a vector equal to the vector itself.
The vector sum
Hooke's Law
Relativistic Length Contraction
Energy Released by Nuclear Fission or Fusion Reaction

21. There is no acceleration in the ________. The horizontal component of velocity is constant.
Weak force
horizontal component
Index of Refraction
Quadratic Formula

22. B=
times the cosine
Quadratic Formula
Magnetic Field around a wire
Resistor's in parallel

23. P = I
Inductors during an increase in current
negative work
Electric Power
Destructive interference

24. 1/C? = 1/C1 + 1/C2 + 1/C3 + etc. **Voltages sum when capacitors are in series (V? = V1 + V2 + V3 ...)**
Newton's first law - inertia
The displacement for a quarter around the circle (pi/4 radians or 45 degrees) - the displacement
Apparent weightlessness
Capacitors in series

25. The speed.
Uniform circular motion
For displacements and distances that approach zero - the instantaneous velocity equals
Newton's Second Law
Work - Power

26. 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
static friction
Linear Expansion
Work
no work is done

27. A force that causes rotation. t = FxLxsin ? Where ? is the angle between F and L; unit: Nm
Translational motion
Work - Power
Torque
Current and Resistance

28. 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
Torque force at Equilibrium
Simple Harmonic Motion
same gravitational work
Center of Mass - point masses on a line

29. The change in internal energy of a system is ?U = QAdded + WDone On - Qlost - WDone By
Energy (conservation)
Index of Refraction
2nd Law of Thermodynamics
Analysis of pulley systems

30. L1 = F1
Torque forces
The momentum of a bomb at rest
Doppler Effect
Resistance of a Wire

31. ?S = Q / T (Phase changes only: melting - boiling - freezing - etc)
Continuity of Fluid Flow
For displacements and distances that approach zero - the instantaneous velocity equals
Friction - static and kinetic
Entropy change at constant T

32. 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.
Momentum
Buoyant Force - Buoyancy
Newton's Second Law
Translational equilibrium (Sum of Fi = 0)

33. 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).
one direction as positive and another as negative
Analysis of pulley systems
Vector addition
free fall

34. Back and forth oscillatory motion corresponding to sound. x = Axcos(?xt) = Axcos(2xpxf xt) ? = angular frequency f = frequency
Energy (conservation)
Momentum
Torque
Sinusoidal motion

35. ?t = ?to / Beta
acceleration
in magnitude
speed
Relativistic Time Dilation

36. 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.
Pressure under Water
parallel
Sinusoidal motion
Continuity (fluids)

37. 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 = ...**
Rotational Kinetic Energy
Poiseuille's Law
Capacitors in parallel
Bernoulli's Equation

38. A measure of both the speed and direction of a moving object. V=?x/?t
velocity
9.8 m/s2
Energy of a Photon or a Particle
scalar

39. Friction always does ___________ because frictional forces always act against the direction of motion.
Work
negative work
Capacitors in parallel
Torques - lever arms

40. 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.

41. Applies to objects in motion. A key sliding across the table eventually comes to a stop because of kinetic friction.
larger
de Broglie Matter Waves
Friction - static and kinetic
Kinetic friction

42. The coefficient of friction is intrinsic to the ________ of the surface and the object - and is determined empirically.
times the cosine
Centripetal Force (F=- mv2/r)
material properties
2nd Law of Thermodynamics

43. FF =
Entropy change at constant T
Concept of a field
Friction
Lorentz Transformation Factor

44. 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
Friction Force
de Broglie Matter Waves
Concept of force - units
Bernoulli's Equation

45. 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
2nd Law of Thermodynamics
Magnetic Field around a wire
de Broglie Matter Waves
Centripetal Force (F=- mv2/r)

46. If the force and the distance applied is in opposite directions...
Electric Power
Kinetic friction
work is negative
First Law of Thermodynamics

47. Interference in which individual displacements on opposite sides of the equilibrium position are added together to form the resultant wave. Must 180 degrees out of phase
Relativistic Mass Increase
Analysis of pulley systems
Destructive interference
Moon

48. Vector - has direction - rate of change in displacement.
velocity
Decibel Scale
effort decreases
Magnification

49. 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.
Capacitance of a Capacitor
in magnitude
Newton's Second Law
Vector addition

50. If the force is acting in one direction - but the object moves in a perpendicular direction - then...
> static friction
work is negative
no work is done
Torque