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SAT Subject Test: hysics

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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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. A process that aligns a wave of light to oscillate in one dimension rather than two.
Fundamental
Polarization
Maxima
Isotope

2. The amount of heat of a material required to raise the temperature of either one kilogram or one gram of that material by one degree Celsius. Different units may be used depending on whether specific heat is measured in s of grams or kilograms - and
Specific heat
Incident ray
Cosine
Translational motion

3. Two materials are in thermal equilibrium if they are at the same temperature.
Quark
Principal axis
Axis of rotation
Thermal equilibrium

4. The cancellation of one wave by another wave that is exactly out of phase with the first. Despite the dramatic name of this phenomenon - nothing is "destroyed" by this interference—the two waves emerge intact once they have passed each other.
Minima
Destructive interference
Rotational motion
Radian

5. The number of cycles executed by a system in one second. Frequency is the inverse of period - f = 1/T. Frequency is measured in hertz - Hz.
Mass
Heat transfer
Frequency
Gold foil experiment

6. A particle - identical to an electron. Beta particles are ejected from an atom in the process of beta decay.
Coefficient of kinetic friction
Activity
Photoelectric effect
Beta particle

7. A vector of magnitude 1 along one of the coordinate axes. Generally - we take the basis vectors to be and - the vectors of length 1 along the x- and y-axes - respectively.
Coefficient of kinetic friction
Quark
Internal energy
Basis vector

8. When an object is held in circular motion about a massive body - like a planet or a sun - due to the force of gravity - that object is said to be in orbit. Objects in orbit are in perpetual free fall - and so are therefore weightless.
Vertex
Frictional force
Orbit
Normal force

9. A nuclear reaction in which a high-energy neutron bombards a heavy - unstable atomic nucleus - causing it to split into two smaller nuclei - and releasing some neutrons and a vast amount of energy at the same time
Angular acceleration
Translational motion
Law of reflection
Nuclear fission

10. The bending of light at the corners of objects or as it passes through narrow slits or apertures.
Diffraction
Mutual Induction
Doppler shift
Kepler's First Law

11. Energy cannot be made or destroyed; energy can only be changed from one place to another or from one form to another.
Static friction
Equilibrium
Law of conservation of energy
Nuclear fission

12. Waves in which the medium moves in the direction perpendicular to the propagation of the wave. Waves on a stretched string - water waves - and electromagnetic waves are all examples of transverse waves.
Calorie
Gravitational Potential Energy
Transverse waves
Joule

13. The units of frequency - defined as inverse-seconds (1 Hz = 1 s-1). "Hertz" can be used interchangeably with "cycles per second."
Hertz (Hz)
Moment of inertia
Entropy
Law of reflection

14. The longest side of a right triangle - opposite to the right angle.
Inertial reference frame
Angle of incidence
Mechanical energy
Hypotenuse

15. The dot product of the area and the magnetic field passing through it. Graphically - it is a measure of the number and length of magnetic field lines passing through that area. It is measured in Webers (Wb).
Magnification
Threshold frequency
Magnetic flux
Reflection

16. A vector quantity - equal to the rate of change of the angular velocity vector with time. It is typically given in units of rad/s2.
Newton's Second Law
First Law of Thermodynamics
Angular acceleration
Gold foil experiment

17. The amplification of one wave by another - identical wave of the same sign. Two constructively interfering waves are said to be "in phase."
Spectroscope
Constructive interference
Convex mirror
Lenz's Law

18. When electromagnetic radiation shines upon a metal - the surface of the metal releases energized electrons. The way in which these electrons are released contradicts classical theories of electromagnetic radiation and supports the quantum view accord
Third Law of Thermodynamics
Photoelectric effect
Uncertainty principle
Tail

19. The amount of heat needed to raise the temperature of one gram of water by one degree Celsius. 1 cal = 4.19 J.
Planck's constant
Kinetic friction
Calorie
Temperature

20. In an interference or diffraction pattern - the places where there is the most light.
Latent heat of transformation
Refraction
Maxima
Angular displacement

21. Given the period - T - and semimajor axis - a - of a planet's orbit - the ratio is the same for every planet.

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22. Kinematics is the study and description of the motion of objects.
Amplitude
Latent heat of vaporization
Moment of inertia
Kinematics

23. A form of radioactivity where an excited atom releases a photon of gamma radiation - thereby returning to a lower energy state. The atomic structure itself does not change in the course of gamma radiation.
Newton's Third Law
Angular frequency
Simple harmonic oscillator
Gamma decay

24. The index of refraction n = c/v of a substance characterizes the speed of light in that substance - v. It also characterizes - by way of Snell's Law - the angle at which light refracts in that substance.
Scalar
Index of refraction
Weightlessness
Kinetic theory of gases

25. An electromagnetic wave of very high frequency.
Inversely proportional
Gamma ray
Radius of curvature
Index of refraction

26. Waves carried by variations in air pressure. The speed of sound waves in air at room temperature and pressure is roughly 343 m/s.
Bohr atomic model
Equilibrium
Sound
Momentum

27. A rough approximation of how gases work - that is quite accurate in everyday conditions. According to the kinetic theory - gases are made up of tiny - round molecules that move about in accordance with Newton's Laws - and collide with one another and
Kinematic equations
Photoelectric effect
Kinetic theory of gases
Tension force

28. A property common to both vectors and scalars. In the graphical representation of a vector - the vector's magnitude is equal to the length of the arrow.
Sound
Atom
Magnitude
Pitch

29. The energy of a particle rotating around an axis.
Concave mirror
Angular momentum
Rotational kinetic energy
Coherent light

30. The ray of light that is refracted through a surface into a different medium.
Medium
Doppler shift
Refracted ray
Newton's First Law

31. A negatively charged particle that orbits the nucleus of the atom.
Electron
Longitudinal waves
Decay constant
Faraday's Law

32. A number - Z - associated with the number of protons in the nucleus of an atom. Every element can be defined in s of its atomic number - since every atom of a given element has the same number of protons.
Amplitude
Rotational kinetic energy
Vector
Atomic number

33. The amount of heat necessary to transform a liquid at a given temperature into a gas of the same temperature - or the amount of heat needed to be taken away from a gas of a given temperature to transform it into a liquid of the same temperature.
Rotational kinetic energy
Latent heat of vaporization
Rigid body
Dispersion

34. A quantity that possesses a magnitude but not a direction. Mass and length are common examples.
Spring
Mass
Scalar
Elastic collision

35. A form of vector multiplication - where two vectors are multiplied to produce a scalar. The dot product of two vectors - A and B - is expressed by the equation A · B = AB cos .
Dot product
Center of mass
Coherent light
Tension force

36. Another word for the frequency of a sound wave.
Destructive interference
Beta particle
Focal length
Pitch

37. The study of the properties of visible light - i.e. - the portion of the electromagnetic spectrum with wavelengths between 360 and 780 nm (1 nm = m/s).
Cosine
Angular frequency
Boyle's Law
Optics

38. The energy associated with the configuration of bodies attracted to each other by the gravitational force. It is a measure of the amount of work necessary to get the two bodies from a chosen point of reference to their present position. This point of
Proton
Convex lens
Universal gas constant
Gravitational Potential Energy

39. In the graphical representation of vectors - the tail of the arrow is the blunt end (the end without a point).
Force
Destructive interference
Tail
Heat engine

40. Indicates how "bouncy" or "stiff" a spring is. More specifically - the spring constant - k - is the constant of proportionality between the restoring force exerted by the spring - and the spring's displacement from equilibrium. The greater the value
Alpha particle
Spring constant
Photoelectric effect
Standing wave

41. The line perpendicular to a surface. There is only one normal for any given surface.
Constructive interference
Translational motion
Newton's Law of Universal Gravitation
Normal

42. The cosine of an angle in a right triangle is equal to the length of the side adjacent to the angle divided by the length of the hypotenuse.
Sublimation
Cosine
Radioactivity
Charles's Law

43. The application of kinematics to understand why objects move the way they do. More precisely - dynamics is the study of how forces cause motion.
Traveling waves
Dynamics
Angular velocity
Latent heat of transformation

44. The distance between successive wave crests - or troughs. Wavelength is measured in meters and is related to frequency and wave speed by = v/f.
Wavelength
Heat engine
Inertia
Angle of reflection

45. The distance between the focal point and the vertex of a mirror or lens. For concave mirrors and convex lenses - this number is positive. For convex mirrors and concave lenses - this number is negative.
Newton's Third Law
Focal length
Translational kinetic energy
Michelson-Morley experiment

46. Two quantities are inversely proportional if an increase in one results in a proportional decrease in the other - and a decrease in one results in a proportional increase in the other. In a formula defining a certain quantity - those quantities to wh
Spring
Inversely proportional
Proton
Michelson-Morley experiment

47. The speed at which a wave crest or trough propagates. Note that this is not the speed at which the actual medium (like the stretched string or the air particles) moves.
Neutron number
Weber
Spring constant
Wave speed

48. Energy associated with an object's position in space - or configuration in relation to other objects. This is a latent form of energy - where the amount of potential energy reflects the amount of energy that potentially could be released as kinetic e
Minima
Vector
Angle of refraction
Potential energy

49. The movement of a rigid body's center of mass in space.
Neutron
Weber
Translational motion
Radiation

50. With spherical mirrors - the radius of the sphere of which the mirror is a part.
Real image
Gamma ray
Radius of curvature
Minima