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. States that the current induced in a circuit by a change in magnetic flux is in the direction that will oppose that change in flux. Using the right-hand rule - point your thumb in the opposite direction of the change in magnetic flux. The direction y

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2. With spherical mirrors - the radius of the sphere of which the mirror is a part.
Radius of curvature
Mass
Latent heat of fusion
Vector


3. 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
Period
Rutherford nuclear model
Rotational motion


4. For a reflected light ray - . In other words - a ray of light reflects of a surface in the same plane as the incident ray and the normal - and at an angle to the normal that is equal to the angle between the incident ray and the normal.
Collision
Refraction
Nuclear fission
Law of reflection


5. Relates the angle of incidence to the angle of refraction: .

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6. The ray of light that is refracted through a surface into a different medium.
Nuclear fission
Frequency
Calorie
Refracted ray


7. A system with many parts in periodic - or repetitive - motion. The oscillations in one part cause vibrations in nearby parts.
Wave
Kinetic theory of gases
Newton
Electromagnetic induction


8. 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.
Latent heat of fusion
Induced current
Angular position
Conservation of momentum


9. The amount of energy that metal must absorb before it can release a photoelectron from the metal.
Work function
Margin of error
Second Law of Thermodynamics
Diffraction grating


10. The experience of being in free fall. If you are in a satellite - elevator - or other free-falling object - then you have a weight of zero Newtons relative to that object.
Weightlessness
Motional emf
Minima
Kelvin


11. An experiment by Ernest Rutherford that proved for the first time that atoms have nuclei.
Gold foil experiment
Beats
Index of refraction
Antinode


12. 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
Kinetic theory of gases
Crest
Pressure
Newton's Law of Universal Gravitation


13. A mirror that is curved such that its center is closer to the viewer than the edges - such as a doorknob. Convex mirrors reflect light away from a focal point.
Concave lens
Convex mirror
Weber
Normal force


14. A measurement of a body's inertia - or resistance to being accelerated.
Gamma ray
Mass
Bohr atomic model
Unit vector


15. For a gas held at a constant temperature - pressure and volume are inversely proportional.

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16. 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.
Polarization
Basis vector
Scalar
Magnitude


17. 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 .
Radioactive decay
Legs
Mole
Dot product


18. The force necessary to maintain a body in uniform circular motion. This force is always directed radially toward the center of the circle.
Angular momentum
Refraction
Centripetal force
Longitudinal waves


19. The center of an atom - where the protons and neutrons reside. Electrons then orbit this nucleus.
Longitudinal waves
Torque
Nucleus
Trough


20. An object at rest remains at rest - unless acted upon by a net force. An object in motion remains in motion - unless acted upon by a net force.

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21. A quantity that possesses a magnitude but not a direction. Mass and length are common examples.
Magnetic flux
Scalar
Amplitude
Nuclear fission


22. Energy associated with the state of motion. The translational kinetic energy of an object is given by the equation .
Ideal gas law
Axis of rotation
Hooke's Law
Kinetic energy


23. 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
Polarization
Frequency
Strong nuclear force


24. 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.
Newton's Second Law
Faraday's Law
Wave speed
Vertex


25. 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
Conservation of momentum
Gravitational Potential Energy
Normal force
Inelastic collision


26. In a right triangle - the sine of a given angle is the length of the side opposite the angle divided by the length of the hypotenuse.
Law of conservation of energy
Newton
Beats
Sine


27. Life- The amount of time it takes for one-half of a radioactive sample to decay.
Universal gas constant
Half
Frequency
Second Law of Thermodynamics


28. The net change - - in a point's angular position - . It is a scalar quantity.
Angular displacement
Calorie
Kepler's Second Law
Thermal energy


29. The points of maximum displacement along a wave. In traveling waves - the crests move in the direction of propagation of the wave. The crests of standing waves - also called anti-nodes - remain in one place.
Potential energy
Oscillation
Crest
Latent heat of vaporization


30. The energy of the molecules that make up an object. It is related to heat - which is the amount of energy transferred from one object to another object that is a different temperature.
Radius of curvature
Newton's First Law
Thermal energy
Displacement


31. The time - T - required for a rigid body to complete one revolution.
Transverse waves
Energy
Newton's Law of Universal Gravitation
Angular period


32. A wedge or a slide. The dynamics of objects sliding down inclined planes is a popular topic on SAT II Physics.
Photon
Beta decay
Radiation
Inclined plane


33. A form of vector multiplication - where two vectors are multiplied to produce a third vector. The cross product of two vectors - A and B - separated by an angle - - is - where is a unit vector perpendicular to both A and B. To deine which direction
Convection
Rotational kinetic energy
Loudness
Cross product


34. A nuclear reaction that takes place only at very high temperatures. Two light atoms - often hydrogen - fuse together to form a larger single atom - releasing a vast amount of energy in the process.
Nuclear fusion
Weber
Reflected ray
Third Law of Thermodynamics


35. The separation of different color light via refraction.
Dispersion
Threshold frequency
Work
Quark


36. 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
Newton's First Law
Spring constant
Wavelength
Weightlessness


37. An area of high air pressure that acts as the wave crest for sound waves. The spacing between successive compressions is the wavelength of sound - and the number of successive areas of compression that arrive at the ear per second is the frequency -
Compression
Directly proportional
Coefficient of volume expansion
Convex mirror


38. An object that moves about a stable equilibrium point and experiences a restoring force that is directly proportional to the oscillator's displacement.
Nuclear fusion
Simple harmonic oscillator
Heat transfer
Legs


39. A principle derived by Werner Heisenberg in 1927 that tells us that we can never know both the position and the momentum of a particle at any given time.
Rotational motion
Electron
Bohr atomic model
Uncertainty principle


40. 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.
Doppler shift
Absolute zero
Harmonic series
Frequency


41. The bending of light at the corners of objects or as it passes through narrow slits or apertures.
Diffraction
Beats
Celsius
Beta decay


42. An experiment in 1879 that showed that the speed of light is constant to all observers. Einstein used the results of this experiment as support for his theory of special relativity.
Tip
Standing wave
Coherent light
Michelson-Morley experiment


43. In oscillation - a cycle occurs when an object undergoing oscillatory motion completes a "round-trip." For instance - a pendulum bob released at angle has completed one cycle when it swings to and then back to again. In period motion - a cycle is the
Convection
Gravitational constant
Cycle
Joule


44. 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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45. 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
Rarefaction
Decay constant
Diffraction grating
Second Law of Thermodynamics


46. 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
Focal length
Centripetal force
Angular momentum
Standing wave


47. The process by which a solid turns directly into gas - because it cannot exist as a liquid at a certain pressure.
Mole
Radioactivity
Sublimation
Ground state


48. The energy of a particle rotating around an axis.
Dispersion
Concave mirror
Rotational kinetic energy
Electron


49. A law - || = - which states that the induced emf is the change in magnetic flux in a certain time.

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50. The tendency of an object to remain at a constant velocity - or its resistance to being accelerated. Newton's First Law is alternatively called the Law of Inertia because it describes this tendency.
Chain reaction
Inertia
Loudness
Normal force