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Test your basic knowledge |
SAT Subject Test: hysics
Start Test
Study First
Subjects
:
sat
,
science
,
physics
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. A neutrally charged particle that - along with protons - constitutes the nucleus of an atom.
Heat engine
Latent heat of vaporization
Neutron
Velocity
2. The property of a vector that distinguishes it from a scalar: while scalars have only a magnitude - vectors have both a magnitude and a direction. When graphing vectors in the xy-coordinate space - direction is usually given by the angle measured cou
Direction
Half
System
Weight
3. The constant of proportionality in Newton's Law of Gravitation. It reflects the proportion of the gravitational force and - the product of two particles' masses divided by the square of the bodies' separation. N · m2/kg2.
Kinetic theory of gases
Gravitational constant
Induced current
Radioactivity
4. The phenomenon by which light traveling from a high n to a low n material will reflect from the optical interface if the incident angle is greater than the critical angle.
Cycle
Unit vector
Refraction
Total internal reflection
5. An experiment by Ernest Rutherford that proved for the first time that atoms have nuclei.
Transverse waves
Gold foil experiment
Angular frequency
Radioactive decay
6. An electromagnetic wave of very high frequency.
Electron
Electric generator
Dot product
Gamma ray
7. The process by which a solid turns directly into gas - because it cannot exist as a liquid at a certain pressure.
Sublimation
Convex mirror
Total internal reflection
Gamma decay
8. Waves produced by a source that is moving with respect to the observer will seem to have a higher frequency and smaller wavelength if the motion is towards the observer - and a lower frequency and longer wavelength if the motion is away from the obse
Convex lens
Loudness
Dispersion
Doppler shift
9. Linear momentum - p - commonly called "momentum" for short - is a vector quantity defined as the product of an object's mass - m - and its velocity - v.
Electric generator
Work
Celsius
Momentum
10. 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.
Elastic collision
Weight
Angle of incidence
Gamma decay
11. A vector quantity - - that reflects the change of angular displacement with time - and is typically given in units of rad/s. To find the direction of the angular velocity vector - take your right hand and curl your fingers along the particle or body
Angular velocity
Centripetal acceleration
Transverse waves
Kelvin
12. 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.
Harmonic series
System
Magnitude
Basis vector
13. The effect of force on rotational motion.
Torque
Tail
Conduction
Elastic collision
14. A vector quantity - commonly denoted by the vector s - which reflects an object's change in spatial position. The displacement vector points from the object's starting position to the object's current position in space. If an object is moved from poi
Critical angle
Displacement
Newton's Law of Universal Gravitation
Vector
15. The bending of light as it passes from one medium to another. Light refracts toward the normal when going from a less dense medium into a denser medium and away from the normal when going from a denser medium into a less dense medium.
Latent heat of transformation
Refraction
Wave speed
Electromagnetic induction
16. A collision in which both kinetic energy and momentum are conserved.
Thermal equilibrium
Radiation
Lenz's Law
Elastic collision
17. The mass difference between a nucleus and the sum of the masses of the constituent protons and neutrons.
Quark
Mass defect
Reflection
Weight
18. A vector quantity defined as the rate of change of the velocity vector with time.
Acceleration
Alpha decay
Conduction
Critical angle
19. A vector quantity - L - that is the rotational analogue of linear momentum. For a single particle - the angular momentum is the cross product of the particle's displacement from the axis of rotation and the particle's linear momentum - . For a rigid
Angular momentum
Sublimation
Inertial reference frame
Force
20. A unit for measuring angles; also called a "rad." 2p rad = 360º.
Radian
Sine
Work-energy theorem
Component
21. A reference frame in which Newton's First Law is true. Two inertial reference frames move at a constant velocity relative to one another. According to the first postulate of Einstein's theory of special relativity - the laws of physics are the same i
Spectroscope
Angle of refraction
Specific heat
Inertial reference frame
22. Energy cannot be made or destroyed; energy can only be changed from one place to another or from one form to another.
Index of refraction
Electromagnetic wave
Angular velocity
Law of conservation of energy
23. 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.
Uncertainty principle
Decay constant
Kelvin
Orbit
24. Defined as the rate at which work is done - or the rate at which energy is transformed. P is measured in joules per second (J/s) - or watts (W).
Second Law of Thermodynamics
Power
Orbit
Radioactive decay
25. The ray of light that is reflected from a mirror or other reflecting surface.
Axis of rotation
Kinetic energy
Reflected ray
Rarefaction
26. 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.
Equilibrium
Isolated system
Deposition
Index of refraction
27. A positively charged particle that - along with the neutron - occupies the nucleus of the atom.
Proton
Thermal equilibrium
Activity
Newton
28. 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 Second Law
Cross product
Pulley
Focal length
29. Two quantities are directly proportional if an increase in one results in a proportional increase in the other - and a decrease in one results in a proportional decrease in the other. In a formula defining a certain quantity - those quantities to whi
Vector
Weak nuclear force
Angular displacement
Directly proportional
30. Body diagram- Illustrates the forces acting on an object - drawn as vectors originating from the center of the object.
Incident ray
Angular period
Deposition
Free
31. The units of frequency - defined as inverse-seconds (1 Hz = 1 s-1). "Hertz" can be used interchangeably with "cycles per second."
Boyle's Law
Incident ray
Hertz (Hz)
Kepler's First Law
32. In an interference or diffraction pattern - the places where there is the least light.
Nuclear fusion
Minima
Third Law of Thermodynamics
Decay constant
33. A back-and-forth movement about an equilibrium position. Springs - pendulums - and other oscillators experience harmonic motion.
Directly proportional
Deposition
Dispersion
Oscillation
34. For a gas held at a constant temperature - pressure and volume are inversely proportional.
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35. Light such that all of the associated waves have the same wavelength and are in phase.
Coherent light
Kinetic energy
Atomic number
Inelastic collision
36. 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
Tension force
Deposition
Inversely proportional
Focal length
37. A force caused by the roughness of two materials in contact - deformations in the materials - and a molecular attraction between the materials. Frictional forces are always parallel to the plane of contact between two surfaces and opposite the direct
Frictional force
Principal axis
Transverse waves
Kepler's Second Law
38. Essentially a restatement of energy conservation - it states that the change in the internal energy of a system is equal to the heat added plus the work done on the system.
Centripetal force
Translational kinetic energy
First Law of Thermodynamics
Destructive interference
39. An almost massless particle of neutral charge that is released along with a beta particle in beta decay.
Standing wave
Neutrino
Coefficient of linear expansion
Energy
40. There are a few versions of this law. One is that heat flows spontaneously from hot to cold - but not in the reverse direction. Another is that there is no such thing as a 100% efficient heat engine. A third states that the entropy - or disorder - of
Free
Pulley
Second Law of Thermodynamics
Magnetic flux
41. The bending of light at the corners of objects or as it passes through narrow slits or apertures.
Diffraction
Completely inelastic collision
Kinematic equations
Longitudinal waves
42. Two materials are in thermal equilibrium if they are at the same temperature.
Strong nuclear force
Weber
Thermal equilibrium
Beats
43. The principle stating that for any isolated system - linear momentum is constant with time.
Concave lens
Gravitational Potential Energy
Conservation of momentum
Mass number
44. An object is called radioactive if it undergoes radioactive decay.
Boyle's Law
Radioactivity
Trough
Kinetic theory of gases
45. The emf created by the motion of a charge through a magnetic field.
Motional emf
Decay constant
Thermal equilibrium
Momentum
46. 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
Beta particle
Temperature
Thermal equilibrium
Specific heat
47. The unit of magnetic flux - equal to one T · m2.
Kinetic theory of gases
Power
Weber
Charles's Law
48. The position - of an object according to a co-ordinate system measured in s of the angle of the object from a certain origin axis. Conventionally - this origin axis is the positive x-axis.
Component
Medium
Angular position
Longitudinal waves
49. For a gas held at constant pressure - temperature and volume are directly proportional.
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50. An image created by a mirror or lens in such a way that light does not actually come from where the image appears to be.
Virtual image
Gravitational constant
Neutron number
Index of refraction
