SAT Subject Test: hysics

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 particle - identical to an electron. Beta particles are ejected from an atom in the process of beta decay.
Beta particle
Vector
Cross product
Angular position


2. The joule (J) is the unit of work and energy. A joule is 1 N · m or 1 kg · m2/s2.
Joule
Tip
Focal length
Inertia


3. The force between two surfaces that are not moving relative to one another. The force of static friction is parallel to the plane of contact between the two objects and resists the force pushing or pulling on the object.
Critical angle
Static friction
Completely inelastic collision
Period


4. A negatively charged particle that orbits the nucleus of the atom.
Kinematic equations
Electron
Medium
Proton


5. In an interference or diffraction pattern - the places where there is the most light.
Wave speed
Coherent light
Maxima
Quark


6. A frequency - f - defined as the number of revolutions a rigid body makes in a given time interval. It is a scalar quantity commonly denoted in units of Hertz (Hz) or s-1.
Angular frequency
Work
Sublimation
Neutron number


7. 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
Basis vector
Force
Superposition
Cycle


8. 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.
Meson
Diffraction grating
Angular frequency
First Law of Thermodynamics


9. 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
Critical angle
Specific heat
Total internal reflection
Center of mass


10. The gravitational force exerted on a given mass.
Kepler's Third Law
Weight
Mutual Induction
Alpha decay


11. A transfer of thermal energy from one system to another.
Heat transfer
Acceleration
Virtual image
Potential energy


12. Two oscillators that have the same frequency and amplitude - but reach their maximum displacements at different times - are said to have different phases. Similarly - two waves are in phase if their crests and troughs line up exactly - and they are o
Pulley
Phase
Sine
Moment of inertia


13. The angle between a reflected ray and the normal.
Heat transfer
Atom
Beta decay
Angle of reflection


14. 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.
Beta decay
Translational motion
Virtual image
Optics


15. Waves that oscillate in the same direction as the propagation of the wave. Sound is carried by longitudinal waves - since the air molecules move back and forth in the same direction the sound travels.
Calorie
Radiation
Virtual image
Longitudinal waves


16. A unit vector is a vector with length 1.
Tension force
Unit vector
Electric generator
Alpha decay


17. The energy of a particle rotating around an axis.
Radius of curvature
Kelvin
Kinetic energy
Rotational kinetic energy


18. The energy of a particle moving in space. It is defined in s of a particle's mass - m - and velocity - v - as (1/2)mv2.
Translational kinetic energy
Inclined plane
Induced current
Acceleration


19. The spectrum containing all the different kinds of electromagnetic waves - ranging in wavelength and frequency.
Wave speed
Electromagnetic spectrum
Maxima
Convex lens


20. Done when energy is transferred by a force. The work done by a force F in displacing an object by s is W = F · s.
Coherent light
Work
Kinematics
Collision


21. The longest side of a right triangle - opposite to the right angle.
Refraction
Wave
Hypotenuse
Mechanical energy


22. The lowest theoretical temperature a material can have - where the molecules that make up the material have no kinetic energy. Absolute zero is reached at 0 K or -273º C.
Translational motion
Real image
Inertial reference frame
Absolute zero


23. A machine that operates by taking heat from a hot place - doing some work with that heat - and then exhausting the rest of the heat into a cool place. The internal combustion engine of a car is an example of a heat engine.
Kepler's First Law
Cosine
Motional emf
Heat engine


24. The force of gravity - F - between two particles of mass and - separated by a distance r - has a magnitude of - where G is the gravitational constant. The force is directed along the line joining the two particles.

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25. 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
Second Law of Thermodynamics
Superposition
Focal length
Gold foil experiment


26. The temperature at which a material will change phase from liquid to gas or gas to liquid.
Threshold frequency
Optics
Celsius
Boiling point


27. The point of a mirror or lens where all light that runs parallel to the principal axis will be focused. Concave mirrors and convex lenses are designed to focus light into the focal point. Convex mirrors and concave lenses focus light away from the fo
Weight
Work-energy theorem
Focal point
Kepler's Third Law


28. For an oscillating spring - the restoring force exerted by the spring is directly proportional to the displacement. That is - the more the spring is displaced - the stronger the force that will pull toward the equilibrium position. This law is expres

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29. An equation - PV = nRT - that relates the pressure - volume - temperature - and quantity of an ideal gas. An ideal gas is one that obeys the approximations laid out in the kinetic theory of gases.
Collision
Constructive interference
Work
Ideal gas law


30. 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
Gravitational Potential Energy
Constant of proportionality
Planck's constant
Photoelectric effect


31. Body diagram- Illustrates the forces acting on an object - drawn as vectors originating from the center of the object.
Angular frequency
Kinetic friction
Free
Thermal equilibrium


32. The disorder of a system.
Dispersion
Ground state
Radius of curvature
Entropy


33. For a gas held at constant pressure - temperature and volume are directly proportional.

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34. A scalar quantity that tells us how fast an object is moving. It measures the rate of change in distance over time. Speed is to be contrasted with velocity in that there is no direction associated with speed.
Angle of incidence
Speed
Transverse waves
Margin of error


35. The series of standing waves supported by a string with both ends tied down. The first member of the series - called the fundamental - has two nodes at the ends and one anti-node in the middle. The higher harmonics are generated by placing an integra
Newton's Third Law
Latent heat of vaporization
Harmonic series
Standing wave


36. The temperature at which a material will change phase from solid to liquid or liquid to solid.
Coefficient of static friction
Kinematic equations
Maxima
Melting point


37. 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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38. Light such that all of the associated waves have the same wavelength and are in phase.
Latent heat of sublimation
Coherent light
Celsius
Tip


39. A means of defining the direction of the cross product vector. To define the direction of the vector - position your right hand so that your fingers point in the direction of A - and then curl them around so that they point in the direction of B. Th
Right-hand rule
Deposition
Significant digits
Margin of error


40. 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
Nuclear fission
Constructive interference
Lenz's Law
Angular displacement


41. With spherical mirrors - the radius of the sphere of which the mirror is a part.
Collision
Thermal energy
Radius of curvature
Concave mirror


42. The force that causes simple harmonic motion. The restoring force is always directed toward an object's equilibrium position.
Power
Inertial reference frame
Restoring force
Meson


43. Heat transfer by molecular collisions.
Conduction
Heat engine
Chain reaction
Equilibrium


44. 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.
Beats
Destructive interference
Inertial reference frame
Unit vector


45. The bending of light at the corners of objects or as it passes through narrow slits or apertures.
Angular frequency
Diffraction
Angular period
Focal length


46. Objects that experience oscillatory or simple harmonic motion when distorted. Their motion is described by Hooke's Law.
Isolated system
Spring
Uncertainty principle
Antinode


47. If a line is drawn from the sun to the planet - then the area swept out by this line in a given time interval is constant.

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48. 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
De Broglie wavelength
Rigid body
Charles's Law


49. A constant - - not to be confused with wavelength - that defines the speed at which a radioactive element undergoes decay. The greater is - the faster the element decays.
Chain reaction
Decay constant
Convex mirror
Focal length


50. A vector quantity defined as the rate of change of the displacement vector with time. It is to be contrasted with speed - which is a scalar quantity for which no direction is specified.
Minima
Convex mirror
Velocity
Isotope