Rarefaction
An area of high air pressure that acts as the wave trough for sound waves. The
spacing between successive rarefactions is the wavelength of sound, and the
number of successive areas of rarefaction that arrive at the ear per second is
the frequency, or pitch, of the sound.
Real image
An image created by a mirror or lens in such a way that light does actually come
from where the image appears to be. If you place a screen in front of a real
image, the image will be projected onto the screen.
Reflect
A wave on a string that is tied to a pole at one end will reflect back toward
its source, producing a wave that is the mirror-image of the original and which
travels in the opposite direction.
Reflected ray
The ray of light that is reflected from a mirror or other reflecting surface.
Reflection
The phenomenon of light bouncing off a surface, such as a mirror.
Refracted ray
The ray of light that is refracted through a surface into a different medium.
Refraction
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.
Restoring force
The force that causes simple harmonic motion. The restoring force is always
directed toward an object’s equilibrium position.
Right-hand rule
A means of defining the direction of the cross product vector. To define the
direction of the vector
(A × B),
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.
The direction of your thumb shows the direction of the cross product vector.
Rigid body
An object that retains its overall shape, meaning that the particles that make
up the rigid body stay in the same position relative to one another.
Rotational kinetic energy
The energy of a particle rotating around an axis.
Rotational motion
Occurs when every point in the rigid body moves in a circular path around a line
called the axis of rotation.
Rutherford nuclear model
The model of the atom according to which negatively charged electrons orbit a
positively charged nucleus. This model was developed by Ernest Rutherford in
light of the results from his gold foil experiment.
S
Scalar
A quantity that possesses a magnitude but not a direction. Mass and length are
common examples.
Second Law of Thermodynamics
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 a system may increase but will never decrease spontaneously.
Significant digits
The number of digits that have been accurately measured. When combining several
measurements in a formula, the resulting calculation can only have as many
significant digits as the measurement that has the smallest number of
significant digits.
Simple harmonic oscillator
An object that moves about a stable equilibrium point and experiences a
restoring force that is directly proportional to the oscillator’s displacement.
Sine
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.
Snell’s Law
Relates the angle of incidence to the angle of refraction:
n1sin?1 = n2sin?2.
Sound
Waves carried by variations in air pressure. The speed of sound waves in air at
room temperature and pressure is roughly 343
m/s.
Specific heat
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 joules or calories.
Spectroscope
A device that breaks incoming light down into spectral rays, so that one can see
the exact wavelength constituents of the light.
Speed
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.
Spring
Objects that experience oscillatory or simple harmonic motion when distorted.
Their motion is described by Hooke’s Law.
Spring constant
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 of
k, more resistant the spring is to
being displaced.
Standing wave
A wave that interferes with its own reflection so as to produce oscillations
which stand still, rather than traveling down the length of the medium. Standing
waves on a string with both ends tied down make up the harmonic series.
Static friction
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.
Strong nuclear force
The force that binds protons and neutrons together in the atomic nucleus.
Sublimation
The process by which a solid turns directly into gas, because it cannot exist as
a liquid at a certain pressure.
Superposition
The principle by which the displacements from different waves traveling in the
same medium add up. Superposition is the basis for interference.
System
A body or set of bodies that we choose to analyze as a group.
T
Tail
In the graphical representation of vectors, the tail of the arrow is the blunt
end (the end without a point).
Tangent
In a right triangle, the tangent of a given angle is the length of the side
opposite the angle divided by the length of the side adjacent to the triangle.
Temperature
A measure of the average kinetic energy of the molecules in a system.
Temperature is related to heat by the specific heat of a given substance.
Tension force
The force transmitted along a rope or cable.
Thermal energy
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.
Thermal equilibrium
Two materials are in thermal equilibrium if they are at the same temperature.
Third Law of Thermodynamics
An object cannot be cooled to absolute zero.
Threshold frequency
A property of a metal, the minimum frequency of electromagnetic radiation that
is necessary to release photoelectrons from that metal.
Tip
In the graphical representation of vectors, the tip of the arrow is the pointy
end.
Torque
The effect of force on rotational motion.
Total internal reflection
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.
Transformer
A device made of two coils, which converts current of one voltage into current
of another voltage. In a step-up transformer, the primary coil has fewer turns
than the secondary, thus increasing the voltage. In a step-down transformer, the
secondary coil has fewer turns than the primary, thus decreasing the voltage.
Translational kinetic energy
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 motion
The movement of a rigid body’s center of mass in space.
Transverse waves
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.
Traveling waves
A wave with wave crests that propagate down the length of the medium, in
contrast to stationary standing waves. The velocity at which a crest propagates
is called the wave speed.
Trough
The points of maximum negative displacement along a wave. They are the opposite
of wave crests.
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