Beyond the Atmosphere: Early Years of Space Science

 
 
APPENDIX K - GLOSSARY
 
 
 
[444] This glossary contains terms used in the narrative that may not be familiar to some readers. For terms not in the glossary, the reader may find the following helpful: William H. Allen, ed., Dictionary of Technical Terms for Aerospace Use, NASA SP-7 (Washington, 1965).
 
 
absorption coefficient.
A numerical quantity that indicates the relative effectiveness of a material substance such as a gas in absorbing electromagnetic radiation.
 
airglow.
The quasi-steady radiant emission from the upper atmosphere as distinguished from the sporadic emission of the auroras. See discussion p. 66-67.
 
alpha particle.
The nucleus of the helium atom. The alpha particle has a double positive charge.
 
anisotropic.
Varying with direction. Radiation that varies in intensity or nature with direction is said to be anisotropic.
 
anomalous propagation of sound.
Propagation of sound waves that takes appreciably longer than the expected time to reach an observer, presumably because the sound did not follow a direct path from the origin to the observer.
 
applied science.
Scientific research that is intended to furnish information and data that will aid in achieving specific practical applications or in developing a desired technology.
 
apogee.
The point in the orbit of a satellite at which the satellite is at its greatest distance from the center of the earth.
 
artificial satellite.
A man-made satellite of the earth, moon, or planet, as contrasted with a natural satellite like the earth's moon.
 
atmosphere of pressure.
Roughly the pressure of the earth's atmosphere at sea level. By definition, exactly 1.01325 x 105 newtons per square meter.
 
aurora.
The northern and southern lights-aurora borealis and aurora australis-which are faint radiations that at times are seen at high latitudes illuminating the night sky. The aurora becomes especially pronounced at times of high solar and magnetic activity.
 
bands in a spectrum.
Emission bands of molecules, combinations of two or more atoms radiating in characteristic groups of lines. In contrast, radiating atoms emit discrete wavelengths, called emission lines of the atom.
 
basic science.
The effort to define basic science almost invariably comes to grief. The first question to decide is basic to what ? If basic to some ultimate applications, then pure, applied, and mission-oriented science can all come under the heading of basic. But, if basic to science itself is the intended meaning, then it becomes a matter of what the scientist himself perceives to be most fundamental, and indeed, the phrase fundamental science is often used to convey this flavor.
 
black body.
A body that absorbs all wavelengths of electromagnetic radiation. Conversely, when heated a black body emits in all wavelengths.
 
chromosphere of the sun.
A thin layer of relatively transparent gases above the photosphere of the sun. See p. 364.
 
collision frequency.
The number of times per second a gas particle collides with other particles of gas.
 
control (of a vehicle).
A means of orienting, steering, or otherwise modifying the movement of a vehicle.
 
[445] core of the earth.
The central region of the earth, extending to about 3400 kilometers from the center. The core is very dense, consisting primarily of iron and iron sulfide. Its outer portions are molten.
 
Corona of the sun.
The outer visible envelope of the sun, lying above the chromosphere. See p. 364-66.
 
cosmic rays.
Streams of high-energy subatomic particles that travel the solar system and bombard the earth from all directions. See pp. 67-69.
 
countdown.
A step-by-step process leading to a climactic event such as the firing of a space launch vehicle.
 
crust of the earth.
The outermost layer of the earth, consisting of the continents and the floor of the ocean basins. Beneath the crust is a mantle surrounding a dense core. While the central part of the core appears to be solid, its outermost portion underlying the mantle is molten.
 
diffusive separation.
Separation into individual component parts as in an isothermal mixture of gases in a gravitational field, where the lighter parts come to predominate at the top and the heavier at the bottom-as cream separates from milk.
 
dipole.
A system composed of two separated, equal, electric or magnetic charges of opposite sign.
 
Dipole field:
see chap. 6, pp. 65-66 and fig. 3.
 
discipline.
A scientific discipline is an area of investigation in which the investigators share a common paradigm or group of paradigms, embracing a common body of theory, and techniques and often instrumentation. See discussion p. 12.
 
dissociation of a molecule.
Separation of a molecule into component parts. If a molecule absorbs enough energy-from heating, irradiation, or an electrical discharge, for example-it may split into component parts. The reverse process, in which the individual parts join to reproduce the original molecule, is called recombination.
 
doppler shift.
Changes in wavelength caused by the motion of a radiating source or of the receiver are called doppler shifts in the radiated wavelengths. When a radiating source, emitting either sound or electromagnetic waves, moves either toward or away from an observer, the motion affects the wavelengths as seen by the observer. If the motion of the source is toward the observer, the wavelengths are shortened so that sound is increased in pitch and light shifted toward the blue end of the spectrum. Motion away from the observer decreases the pitch of sound and shifts electromagnetic radiations toward the red.
 
dynamical geodesy.
The study of the gravitational field of the earth and its relationship to the solid structure of the planet. Also called physical geodesy. See p. 186.
 
electron.
A fundamental particle of matter carrying a single negative electric charge and having a mass 1/ 1840 that of a proton.
 
electron volt.
The energy equivalent to that acquired by an electron in falling through an electric potential of I volt. It is equal to 1.60210 x 10-19 joule.
 
excitation.
An atom or molecule is said to be excited when it has absorbed sufficient energy to raise it above the normal or ground-level state, but not enough to ionize it.
 
exobiology.
The search for and study of extraterrestrial life. See pp. 274, 352-53.
 
exponential atmosphere.
An atmosphere in which an increase in altitude by a fixed height H always decreases the pressure and density by a constant factor. See p. 60.
 
forbidden line.
An emission line corresponding to a less probable wavelength than any given by the usual selection rules. In emitting light a radiating atom obeys the laws of quantum theory, in which certain rules, called selection rules, give the wavelengths an atom is most likely to emit. Under certain conditions, however, an atom may emit a less likely wavelength.
 
galaxy.
The self-contained aggregate of stars, nebulas, gases, and dust of which the sun and its planets are members. The galaxy is one of billions of such systems, also called galaxies, which collectively compose the metagalaxy.
 
gamma.
Magnetic flux density of 10-5 gauss or 10-9 tesla.
 
[446] geodesy.
The science that deals mathematically with the size and shape of the earth, the earth's external gravity field, and surveys so precise that size and shape of the earth must be taken into consideration. See pp. 186-96.
 
geoid.
The figure of the earth as defined by the level surface that over the oceans coincides with mean sea level. See pp. 189-96.
 
geomagnetic equator.
The great circle of the earth lying midway between the north and south poles of the earth's dipole magnetic field.
 
geomagnetic latitude and longitude.
Analogous to geographic latitude and longitude, but referred to the dipole magnetic poles and geomagnetic equator instead of to the geographic poles and equator.
 
geometrical geodesy.
Study, by geometrical and astronomical measurements, of the precise size and shape of the earth and accurate location of points on the surface of the earth. See p. 186.
 
geopotential function.
That function which at each point is equal to an arbitrary constant minus the energy that would be acquired by a unit mass in failing from rest at infinity to the point in question. The gradient of the geopotential function, which can be obtained by vector calculus, yields the earth's gravitational field.
 
geosyncline.
Layers of rocks that have been tilted from their original horizontal stratification to form a huge basin which then fills with sediments.
 
gradient.
The rate of change of a quantity with distance in a specified direction is the gradient of the quantity in that direction. When the term gradient is used without specifying the direction, it is taken to mean the rate of change of the quantity in question in the direction of greatest rate of change.
 
guidance.
The process of directing the movements of an aircraft, spacecraft, missile, or other vehicle. In general such vehicles are equipped so that they can be controlled to follow the guidance supplied to them.
 
hydrated compound.
A compound in which the molecules contain water (H2O) or hydroxyl radicals and protons (OH and H).
 
integration.
A mathematical process used in the calculus for deriving a function from its slope. The reverse process, which yields the slope of a given function, is differentiation.
 
International Geophysical Year (IGY).
An internationally agreed on period, July 1957 through December 1958, during which observation of worldwide geophysical phenomena was greatly increased by cooperative effort of participating nations. Activities were continued through December 1959 as International Geophysical Cooperation. See pp. 50-51.
 
ion.
A charged atom or molecularly bound group of atoms; sometimes also a free electron or other charged subatomic particle. In the normal state atoms and molecules are electrically neutral. An atom or molecule that acquires one or more electrons becomes negatively charged and is called a negative ion. If the particle loses one or more electrons it becomes positively charged and is called a positive ion.
 
ionization gauge.
A gauge in which the effect of an ambient gas on the electric current flow from a hot filament is used to measure a property of the gas, such as charge density.
 
ionosphere.
Upper levels of the earth's atmosphere, extending outward from about 70 kilometers altitude and containing free electronically charged particles that reflect radio waves. See pp. 64-65.
 
isothermal.
Of constant temperature.
 
isotropic radiation.
Radiation that is of equal intensity in all directions.
 
law of sines.
In trigonometry, the law which states that in a triangle the lengths of the sides are in proportion to the sines of the opposite angles. Thus, if a, b, c are the three sides of a triangle, and [Greek letters] alpha, beta, gamma are the angles opposite to a, b, and c, respectively, then a/sin alpha = b/sin beta = c/sin gamma.
 
level surface.
A surface to which the force of gravity is everywhere perpendicular. pp 190-92.
 
[447] liftoff.
The rising of a space launch vehicle from its launching stand immediately after firing.
 
light-year.
The distance light travels in one year, equal to 9.46055 x 1015 meters.
 
line in a spectrum.
Light emitted or absorbed at a discrete wavelength by a radiating or absorbing atom.
 
Lyman alpha line.
The hydrogen atom is capable of emitting (or absorbing) electromagnetic radiation in several different series of lines. One of these is known as the Lyman series. The longest wavelength of the Lyman series is at 1216 Å in the ultraviolet region, and is known as Lyman alpha. The next longest wavelength of the series is Lyman beta, then Lyman gamma, etc.
 
magnetic storm.
A disturbance in the earth's magnetic field assumed to be caused by streams of particles and magnetic fields from the sun.
 
magnetosphere.
The region of space surrounding the earth where the magnetic field plays a prominent, often controlling, role relative to particle radiations found there. See pp. 173-84.
 
main stage.
That stage of a launch vehicle-usually the largest stage-that is used to lift the launch vehicle and its payload to a high enough altitude that the remaining stages of the vehicle can project the payload into orbit or into a space trajectory.
 
man-machine relations.
Relations between man and a machine-such as an aircraft or spacecraft. The matching of human characteristics to a machine so as to obtain maximum efficiency or optimum conditions for operation is called man-machine integration. The integrated combination of man and machine in an operating unit is called a man-machine system.
 
mantle of the earth.
The interior of the earth between about 3400 kilometers-the outer boundary of the core-and the crust.
 
mare (pl. maria).
The maria are the dark regions of the moon, once thought to be seas, hence the term mare from the Latin for sea. The term is also applied to dark regions on Mars.
 
mean free path.
The average distance a gas particle travels between successive collisions with other particles.
 
meson.
An elementary particle of mass intermediate between the masses of the electron and proton.
 
mesosphere.
Sometimes used to denote the middle atmosphere, between the stratosphere and the ionosphere.
 
metagalaxy.
The system of all galaxies. The physical universe.
 
meteor.
A fast moving mass from space traversing the atmosphere.
 
meteorite.
A meteor that survived passage through the atmosphere to strike the ground.
 
micrometeor; micrometeorite.
A meteor or meteorite that is a few hundreds of micrometers or less in diameter.
 
mission-oriented science.
Applied science carried out in support of a specifically stated mission, such as providing the necessary weaponry for naval warfare, maintaining adequate air power, improving agriculture, developing natural resources, or predicting the weather.
 
monochromatic beam.
A beam of radiation of a single wavelength.
 
nebula.
A huge cloud of gas and dust in space.
 
neutron.
An electrically neutral particle of mass essentially equal to that of the proton. A free neutron is unstable, decaying (with a half life of about 12 minutes) to an electron and a proton. (To say that the half life of a neutron is 12 minutes means that of a group of N neutrons, N/2 of them will decay before 12 minutes, and N/2 of them after 12 minutes.)
 
oblate ellipsoid of revolution.
The surface (or solid) obtained by revolving an ellipse about its minor axis. Revolving the ellipse about its major axis produces a prolate ellipsoid of revolution.
 
[448] orbit.
The closed path of a moving body or particle around another object. See also trajectory.
 
ozone.
The gas whose molecules consist of three oxygen atoms combined: O3.
 
ozonosphere.
The region of the atmosphere in the upper stratosphere and lower mesosphere where there are appreciable quantities of ozone. See pp. 61, 63, fig. 1.
 
perigee.
For a satellite orbit, the nearest point to the center of the earth.
 
photosphere of the sun.
The visible disk of the sun. See pp. 364-65.
 
physical geodesy.
The study of the gravitational field of the earth and its relationship to the solid structure of the planet. Also called dynamical geodesy. See p. 186.
 
Pirani gauge.
A pressure gauge in which the rate of cooling of a heated filament by the ambient gas is used to measure the pressure of the gas.
 
plasma.
A hot gas consisting of equal numbers of positive and negative ions.
 
polarized light.
The wave theory of light pictures light as electromagnetic vibrations in space, with electric and magnetic vectors vibrating perpendicularly to each other. Normally in a beam of light the orientations of the electric and magnetic vectors are random. But if the electric (or magnetic) vectors all vibrate parallel to a common plane, the light in the beam is said to be plane polarized.
 
programmatic science.
Science carried out as part of a specific program say, the atomic energy program, or the NASA space science program as illustrations-and constrained (loosely perhaps, but constrained nevertheless) to fit within the general confines of the program.
 
proton.
The nucleus of the hydrogen atom. The proton carries a single positive electric charge, and has a mass of 1.673 x 10-27 kilograms.
 
pulsar.
A star that emits radiation in equally spaced pulses.
 
pure science.
See uncommitted science.
 
quantum theory.
The theory that all electromagnetic radiation is emitted and absorbed in quanta of energy equal to hv, where h is a constant called the Planck constant after the propounder of quantum theory, and v , is the frequency of the radiation.
 
quasar.
An exceedingly remote astronomical object which appears like a blue star but which because of the prodigious quantities of energy it radiates may turn out to be galaxy.
 
radiation belt.
The portion of a planetary magnetosphere that contains charged particle radiations unable to escape because of the ambient magnetic field.
 
radio galaxy.
A galactic system that emits prominently in radio wavelengths.
 
recombination.
The reverse of dissociation, with the separated parts of a molecule rejoining to reproduce the original molecule from which they came. For example, an electron may recombine with a positive ion to form a neutral atom or molecule; a positive ion may join with a negative ion to form a neutral molecule; or two neutral atoms might recombine to form a molecule.
 
recombination coefficient.
A quantitative measure of the affinity of particles for recombining.
 
reflection coefficient.
A numerical quantity that gives the proportions and manner in which a medium reflects incident radiation.
 
refraction.
The bending of electromagnetic rays by properties of the medium traversed.
 
relativistic particle.
A particle moving sufficiently close to the speed of light that effects of relativity, such as an increase in mass or a slowing of time, become significant.
 
resonance line.
The longest Wavelength that an atom can emit or absorb.
 
retrorocket.
A rocket so mounted on a vehicle or spacecraft that it fires in the direction opposite to the motion of the vehicle or spacecraft. Retrorockets are used to slow down the vehicles on which they are mounted.
 
rocket stage.
A self-propelled separable element of a rocket vehicle. In a multistage rocket, each rocket unit fires after the one behind it has used up its propellant and (normally) been discarded. See page. p. 135.
 
[449] satellite.
An attendant body that revolves around another body called the satellite's primary. By custom, the bodies revolving around the sun are called planets, not satellites, of the sun.
 
scientific discipline.
An area of scientific investigation in which the investigators share a common paradigm or group of paradigms-embracing a common body of theory-and techniques and often instrumentation that stem from the underlying theoretical basis of the discipline.
 
sectorial harmonic.
One of a series of terms representing the gravitational potential of the earth, in which the terms exhibit pronounced variation with longitude. See spherical harmonic and p. 192.
 
Seyfert galaxy.
A spiral galaxy with a very compact, highly luminous nucleus.
 
solar wind.
A continuous wind of charged particles from the sun, blowing through interplanetary space.
 
spacecraft.
Devices, manned or unmanned, that are intended to be placed in an orbit about the earth in space, or on a trajectory to another celestial body.
 
space launch vehicle.
A combination of rocket stages, with the necessary guidance and control equipment, used to project a spacecraft into space.
 
space probe.
Spacecraft sent away from earth into space. See. p. 153.
 
space science.
Scientific investigations made possible or significantly aided by rockets, satellites, and space probes. See chap. 1, especially, pp. 11-15.
 
spectrum.
Electromagnetic radiation displayed or visualized as a function of wavelength. Thus, the rainbow is part of the spectrum of sunlight.
 
spherical harmonic.
One of a series of terms expressing the geopotential function in sines and cosines of latitude and longitude. See pp. 192-93.
 
stage.
See rocket stage.
 
stratosphere.
The layer of the earth's atmosphere between about 16 and 50-55 kilometers altitude, lying above the troposphere and extending to the stratopause; temperature generally increases with altitude in the stratosphere. See pp. 60-62.
 
sunspot cycle.
A cycle of variation in the total number and area of spots on the sun's surface, from a maximum to a minimum with an average period of 11 years. Since magnetic fields on the sun reverse with each such cycle, the period of a complete cycle of spottedness-plus-magnetic-condition is 22 years.
 
superconducting cavity.
When certain materials are brought sufficiently close to absolute zero temperature, they become perfect electrical conductors capable of sustaining circulating electrical currents indefinitely without resistance losses. A cavity in which such conditions of superconductivity are maintained is a superconducting cavity. The resonance properties of such superconducting cavities permit the construction of highly accurate oscillators, or clocks.
 
synchronous orbit.
The orbit over the earth's equator at an altitude of 36,000 km, in which the rate of revolution of the satellite around the earth equals the rate of rotation of the earth, so that the satellite always stays over the same spot on the ground.
 
technology.
Technical know-how; the knowledge and ability to do things of a technical or engineering nature, including the field of industrial arts.
 
telemetering.
Measuring an object or phenomenon at a distance. Radio is often used to transmit the measured data from the point of measurement to a remote observer.
 
trajectory.
In general, the path in three dimensions (i.e. space) of a moving body. The word trajectory is often used to mean flight path. If the trajectory is a closed path around another object like the earth, the trajectory is called an orbit. When the path is not closed, the word trajectory is usually used.
 
troposphere.
The lowest portion of the atmosphere, extending from the ground to the base of the stratosphere.
 
[450] uncommitted or pure science.
Science carried out simply to pursue what the researcher considers to be important problems, the solutions to which show promise of revealing significant information about nature and the universe. Uncommitted or pure science is not constrained by programmatic, applications, or mission objectives.
 
vorticity.
The amount of rotational motion possessed by it fluid is called its vorticity.
 
zonal harmonic.
One of a series of terms representing the gravitational potential of the earth. Zonal harmonics correspond to coefficients Jnm. for which m = 0 and which depend only on latitude. See spherical harmonic and also pp. 192-93.
 

 
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