Qualification > Revison Notes
Physics Definitions
Nobody:
Satellite Motion
Summary of Terms:
Satellite: A projectile or small celestial body that orbits a larger celestial body.
Ellipse: The closed oval-like curve wherein the sum of the distances from any point on the curve to both foci is a constant. When the foci are together at one point, the ellipse is a circle. The farther apart the foci, the more eccentric the ellipse.
Escape Speed: The speed that a projectile, space probe, or similar object must reach to escape the gravitational influence of the earth or celestial body to which it is attracted.
Equations, Equivalences, and Concepts:
The sum or KE and PE for a satellite is a constant at all points along its orbit.
For a satellite in circular orbit, it is always moving perpendicularly to the earth’s gravitational field.
Because a satellite moves at right angles to the earth’s gravitational field, no change in speed occurs - only a change in direction.
The higher the orbit of a satellite, the less it’s speed and the longer it’s period.
Nobody:
Electricity
The force between two electrically charged objects is
F=(Kq1q2)/r^2 (r=distance, q=charges, k=proportionality constant)
E = Elemental electric charge (-1.6 x 10-19 Coulombs)
Conductor: allows electric charge to move through it.
Insulator: materials in which the electrons are tightly bound.
--- Quote ---E=F/q
--- End quote ---
--- Quote ---F=Eq
--- End quote ---
--- Quote ---A=F/M=Eq/M
--- End quote ---
--- Quote ---W=FD=EqD
--- End quote ---
1 Volt=1 Joule/1 Coulomb
Ampere=Coulombs/Second (A=q/s)
1 Amp=6.25 x 1018 electrons/second
1 Amp(120V)=120W
P=VI
Electromotive Forces: Battery, Thermoelectric, Electromagnetism
Fluorescent lights - 1 amp
Motor starter - 100 amp
Head Llights - 2 or 3 amp
Resistance: Friction in a conductor, resists the movement of electrons, limits the amount of potential current that can pass.
R=V/A
V=AR
A=V/R
Where V=voltage A=current R=resistance
What determines resistance?
Type of material, shape and size ; like a hose-bigger means less R, longer means more R
Electric current flows from high potential to low potential (volts)
Thus in a -12v DC battery the current travels from - to +
How are electricity and gravity the same?
They both a forces, and follow the inverse-square law
How are they different?
Electricity is a much stronger force
Gravity is exclusively attractive, while electricity is both repellant and attractive
Does current flow through or across a resistor?
Through a resistor.
Is voltage established through or across a resistor?
Across a resistor.
Ohms law:[/b] Amps=Volts/Resistance (A=V/R)
Other Definitions
Electrostatics: The study of electric charges at rest relative to one another
Capacitor: An electrical device, in its simplest form a pair of parallel conducting plates separated by a small distance, that stores electric charge.
Coulomb’s Law: the relationship among electrical force, charge, and distance.
Coulomb: the SI unit of electrical charge.
Conductor: any material through which charge easily flows when subject to an external force.
Insulator: any material that resists charge flow through it when subject to an external force.
Semiconductor: a poorly conducting material, such as crystalline silicon or germanium, which can be made a better-conducting material by the addition of certain impurities or energy.
Charging by contact: the transfer of charge from one substance to another by physical contact between substances.
Charging by induction: the change in charge of a grounded object, caused by the electrical influence of electric charge close by but not in contact.
Electrically polarized: term applied to an atom or molecule in which the charges are aligned so that one side is slightly more positive or negative than the opposite side.
Electric field: the energetic region of space surrounding a charged object. About a charged point, the field decreases with distance according to the inverse- square law.
Electric potential energy: the energy a charge possesses by virtue of its location in an electric field.
Electric potential: the electric potential energy per amount of charge, measured in volts, and often called voltage.
Potential difference: the difference in voltage between two points, measured in volts.
Electric current: the flow of electric charge that transports energy from one place to another. Measured in amperes, where 1A is the flow of 6.25 x 1018 electrons per second.
Electrical Resistance: the property of a material that resists the flow of an electric current through it. (ohms).
Superconductor: a material in which the electrical resistance to the flow of electric current drops to near zero or zero under special circumstances that usually include low temperatures.
Direct Current: an electric current flowing in one direction only.
Alternating Current: electric current that repeatedly reverses its direction; the electric charges vibrate about relatively fixed points. In the U.S. the vibration rate is 60Hz.
Electric Power: the rate of energy transfer, or the rate of doing work; the amount of energy per unit time, which electrically can be measured by the product of current and voltage. Measured in watts or kilowatts.
Series circuit: an electric circuit with devices having resistances arranged in such a way that the same electric current flows through all of them.
Parallel circuit: an electric circuit with two or more resistances arranged in branches in such a way that any single one completes the circuit independently of all the others.
Notes:
Electrons can be forced into vibration by the vibration electric fields of electromagnetic waves
Nobody:
Color
At the resonant frequencies where the amplitudes of oscillation are large, light is absorbed. But at frequencies below and above the resonant frequencies, light is re- emitted (reflected)
An object can only reflect frequencies that are present in the illuminating light.
A red piece of glass appears red because it absorbs all the colors that compose white light, except red, which it transmits.
The energy of the absorbed frequencies increase the kinetic energy of the molecules and the glass is warmed.
Any of the three additive primaries can be produced by a combination of any two of cyan, magenta, or yellow pigments. The latter three are called subtractive primary colors.
A color plus its opposite (complementary) produce white.
The tinier the particle, the higher the frequency of light it will scatter.
Of the visible frequencies violet light is scattered the most, followed by blue, green, yellow, orange, and red.
When white light passes through a thick atmosphere, the higher frequencies are scattered the most while the lower frequencies are transmitted with minimal scattering.
As the day progresses and the sun is lower in the sky, the path through the atmosphere is longer, and more blue is scattered from the sunlight. The removal of blue (through scattering) leaves the transmitted light more reddish in appearance.
Water is transparent to nearly all the visible frequencies of light, but strongly absorbs infrared waves.
Water molecules very weakly resonate in the visible red, which causes a slight absorption of red light in water. Red light is reduced to a quarter of its initial brightness by 15 meters of water.
Terms:
Additive primary colors: The three colors, red, blue, and green, that when added in certain proportions will produce any color in the spectrum.
Subtractive primary colors: The three colors of absorbing pigments-magenta, yellow, and cyan- that when mixed in certain proportions will reflect any color in the spectrum.
Complementary colors: Any two colors that when added produce white light.
Still some more to come!
Nobody:
Reflection and Refraction
Fermat’s Principle: Out of all possible paths that light might take, to get from one point to another, it takes the path that requires the shortest time.
Law of Reflection: The angle of incidence equals the angle of reflection.
Plane mirrors: The observer sees the image of a candle at a point behind the mirror. The light rays do not actually come from this point, so the image is called a virtual image.
Causes of refraction: the bending is caused by a change in speed.
Dispersion: Violet light travels about one percent slower in ordinary glass than does red light.
Reflection: the return of light rays from a surface in such a way that the angle at which a given ray is returned is equal to the angle at which it strikes the surface. When the reflecting surface is irregular, light is returned in irregular directions; this is diffuse reflection.
Refraction: the bending of an oblique ray of light when it passes from one transparent medium to another.
Critical angle: the minimum angle of incidence at which a light ray is totally reflected within a medium.
Total internal reflection: the total reflection of light traveling in a medium when it strides on the surface of a less dense medium at an angle greater than the critical angle.
Converging lens: A lens that is thicker in the middle than at the edges and refracts parallel rays passing through it to a focus.
Diverging lens: A lens that is thinner in the middle than at the edges, causing parallel ray passing through it to diverge.
Virtual image: an image formed by light rays that do not converge at the location of the image. A virtual image is that reflected by a mirror; it cannot be displayed on a screen.
Real image: An image formed by light rays that converge at the location of the image. A real image can be displayed on a screen.
Aberration: a limitation on perfect image formation inherent, to some degree, in all particle systems.
Nobody:
Light Waves
A soap bubble appears iridescent in white light when the thickness of the soap film is about the same as a wavelength of light.
Bright fringes occur when waves (from both slits) arrive in phase; dark areas result from the overlapping of waves that are out of phase.
Diffraction grating disperses white light into colors, and are used in spectrometers.
The amount of diffraction depends on the wavelength of the wave compared to the size of the obstruction that casts the shadow. The longer the wave compared to the obstruction, the more the diffraction occurs.
Huygens’ principle: the theory by which light waves spreading out from a point source can be regarded as the superposition of tiny secondary wavelets.
Diffraction: the bending of light around an obstacle or through a narrow slit in such a way that fringes of light and dark or colored bands are produced.
Interference: the superposition of waves producing regions of reinforcement and regions of cancellation. Constructive interference refers to regions of reinforcement; destructive interference refers to regions of cancellation. The interference of selected wavelengths of light produces colors known as interference colors.
Polarization: the alignment of the electric vectors that make up electromagnetic radiation. Such waves of aligned vibrations are said to be polarized.
Hologram: a two dimensional microscopic diffraction pattern that shows three dimensional optical images.
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