deck_Texes136overall

Question 2

Scientific Method

Answer 2

A systematic process of learning that includes observations, stating the problem, hypothesizing, experimentation, gathering and analyzing data, and stating a conclusion.

Question 3

Compression Wave

Answer 3

Waves in which the disturbance takes place in the direction of propagation.

Question 4

Conduction

Answer 4

The transfer of energy that occurs when a body of high temperature transfers its heat through a connecting medium to one of lower temperature.

Question 5

Convection

Answer 5

The process by which large amounts of energy are transferred through the movement of gas and liquid.

Question 6

First Harmonic

Answer 6

Also known as the fundamental frequency; has two nodes at each end and one antinode in the middle, forming a single hill or trough.

Question 7

Focal Length

Answer 7

The distance between the pole of a lens or mirror to the principal focus and is always equal to half of the radius of curvature of lens or mirror. f = R/2.

Question 8

Harmonic Oscillator

Answer 8

Any object that oscillates about a stable equilibrium position and experiences a restoring force approximately described by Hooke’s law.

Question 9

Kinetic Energy

Answer 9

In physics, the energy of an object in motion.

Question 10

Kinetic Friction

Answer 10

Occurs when one object is moving with respect to the surface with which it is in contact. It has magnitude given by FK = uKN. (uK is the coefficient of kinetic friction and N is the magnitude of the Normal Force).

Question 11

Newton’s First Law of Motion

Answer 11

A fundamental principle in physics which states that an object at rest will remain at rest and an object in motion will stay in motion, moving at the same velocity, unless an unbalanced force is applied to it.

Question 12

Newton’s Second Law of Motion

Answer 12

A fundamental principle in physics which states that unbalanced forces acting on an object will produce a reaction, or acceleration, that is directly proportional to the amount of the force applied, and inversely proportional to the object’s mass.

Question 13

Newton’s Third Law of Motion

Answer 13

A fundamental principle in physics which states that every action will create a reverse, or opposite, but equal reaction.

Question 14

Normal Force

Answer 14

The force one surface exerts on another surface. It is perpendicular to the surface of contact.

Question 15

Photovoltaic Cell

Answer 15

A specialized semiconductor diode that converts visible light into direct current.

Question 16

Potential Energy

Answer 16

The capacity a resting object has to do work from a particular position; stored energy.

Question 17

Radiation

Answer 17

The transfer of energy through waves and particles; emission and propagation of energy in the form of rays or waves without the requirement of a connective medium.

Question 18

Refraction

Answer 18

The behavior of a single frequency wave traveling through a medium or field that comes into contact with an object and is bent before passing into a second medium.

Question 19

Resultant Vector

Answer 19

The sum of two or more vectors.

Question 20

Second Harmonic

Answer 20

A sine wave having two times the frequency of the fundamental wave.

Question 21

Static Friction

Answer 21

Occurs when an object is in contact with the surface it is resting on. It has a magnitude given by Fs = usN (us is the coefficient of static friction, N is the magnitude of the Normal Force).

Question 22

Third Harmonic

Answer 22

A sine wave having three times the frequency of the fundamental wave.

Question 23

Transverse Wave

Answer 23

A wave that moves in a direction perpendicular to that of its medium.

Question 24

Wave Amplitude

Answer 24

The magnitude of the greatest departure from equilibrium of the wave disturbance.

Question 25

Wave Frequency

Answer 25

A wave characteristic referring to the number of cycles occurring per second.

Question 26

Wavelength

Answer 26

The distance (measured in the direction of propagation) between two points in the same phase in consecutive cycles of a wave.

Question 27

Alpha Decay

Answer 27

The radioactive decay of an atomic nucleus accompanied by emission of an alpha particle.

Question 28

Atomic Mass

Answer 28

The mass of an atom expressed in atomic mass units (amu).

Question 29

Atomic Number

Answer 29

The number of protons in the nucleus of an atom.

Question 30

Barometer

Answer 30

An instrument for measuring atmospheric pressure, used especially in weather forecasting.

Question 31

Beta Decay

Answer 31

The radioactive decay of an atomic nucleus accompanied by emission of a beta particle.

Question 32

Calorimetry

Answer 32

Measurement of the amount of heat evolved or absorbed in chemical reaction, change of state, or formation of a solution.

Question 33

Conservation of Energy

Answer 33

A fundamental thermodynamics principle which states that energy cannot be created or destroyed, although it can be changed from one form to another.

Question 34

Conservation of Mass

Answer 34

A fundamental thermodynamics principle which states that reactions and interactions which change the properties of substances leave their total masses unchanged.

Question 35

Equilibrium Constant

Answer 35

A constant, characteristic for each chemical reaction; relates the specific concentrations of all reactants and products at equilibrium at a given temperature and pressure.

Question 36

Gamma Decay

Answer 36

A radioactive process in which an atomic nucleus loses energy by emitting a gamma ray without a change in its atomic or mass numbers.

Question 37

Gibb’s Energy

Answer 37

A mathematical expression, developed in the 1870s by the American mathematical physicist Willard Gibbs, defined as the energy portion of a thermodynamic system available to do work.

Question 38

Heat Capacity

Answer 38

The amount of heat required to raise the temperature of one mole or one gram of a substance by one degree Celsius without change of phase.

Question 39

Heat of Combustion

Answer 39

The amount of heat released per unit mass or unit volume of a substance when the substance is completely burned.

Question 40

Heat of Formation

Answer 40

The increase in enthalpy resulting from the formation of 1 mole of a substance from its elements at constant pressure.

Question 41

Intermolecular Forces

Answer 41

Electromagnetic forces which act between molecules or between widely separated regions of a macromolecule. Listed in order of decreasing strength, these forces are: ionic interactions, hydrogen bonds, dipole-dipole interactions, London dispersion forces (Van der Waals forces).

Question 42

Intramolecular Bonds

Answer 42

Forces which keep atoms held together in molecules and in solids, such as covalent, ionic, and aromatic bonds.

Question 43

Ionic Bond

Answer 43

A chemical bond between two ions with opposite charges, characterized by the unequal sharing of electrons.

Question 44

Ionization Constant

Answer 44

Analog of the dissociation constant, where k = [H+][A-]/[HA]; used for the application of the law of mass action to ionization; in the equation HA represents the acid, such as acetic acid.

Question 45

Manometer

Answer 45

A pressure gauge for comparing pressures of a gas.

Question 46

Molarity

Answer 46

The molar concentration of a solution, usually expressed as the number of moles of solute per liter of solution.

Question 47

Specific Heat

Answer 47

The amount of heat, measured in calories, required to raise the temperature of one gram of a substance by one Celsius degree. Also known as heat capacity.

Question 48

Spontaneous Process

Answer 48

A chemical reaction in which a system releases free energy (most often as heat) and moves to a lower, more thermodynamically stable, energy state. The sign convention of changes in free energy follows the general convention for thermodynamic measurements, in which a release of free energy from the system corresponds to a negative change in free energy, but a positive change for the surroundings.

Question 49

Adenosine Triphosphate (ATP)

Answer 49

A chemical compound nucleotide found in all living organisms that releases energy for cellular reactions when it converts to ADP.

Question 50

Bacteriophage

Answer 50

A virus that infects bacteria and may integrate into the genetic material of its host cell.

Question 51

Cellular Respiration

Answer 51

The series of metabolic processes by which living cells produce energy through the oxidation of organic substances.

Question 52

Eukaryote

Answer 52

Any organism with one or more cells that have visible nuclei and organelles. The group contains all living and fossil cellular organisms except bacteria and cyanobacteria.

Question 53

Hydrophilic

Answer 53

Having a strong affinity for water; tending to dissolve in, mix with, or be wetted by water.

Question 54

Hydrophobic

Answer 54

Not dissolving in, absorbing, or mixing easily with water.

Question 55

Lipid Bi-layer

Answer 55

A double layer of regularly arranged phospholipid molecules that is widely accepted as forming the basic structure of cell membranes and other biological membranes.

Question 56

Mitochondrial Membrane

Answer 56

The membrane surrounding the mitochondrion, containing proteins having ATP synthase, which make ATP in the mitochondrial matrix.

Question 57

Prokaryote

Answer 57

A unicellular organism having cells lacking membrane-bound nuclei; bacteria are the prime example but also included are blue-green algae and actinomycetes and mycoplasma.

Question 58

Protein Coat

Answer 58

The outer covering of protein surrounding the nucleic acid of a virus, also called the capsid.

Question 59

Allele

Answer 59

One of the variant forms of a gene at a particular locus, or location, on a chromosome. Different alleles produce variation in inherited characteristics such as hair color or blood type. In an individual, one form of the allele (the dominant one) may be expressed more than another form (the recessive one).

Question 60

Convergent Evolution

Answer 60

Describes the process whereby organisms not closely related independently acquire similar characteristics while evolving in separate and sometimes varying ecosystems.

Question 61

Deoxyribose Nucleic Acid (DNA)

Answer 61

The chemical inside the nucleus of a cell that carries the genetic instructions for making living organisms. All known cellular life and some viruses have DNA. DNA is a long polymer of nucleotides (a polynucleotide) that encodes the sequence of amino acid residues in proteins, using the genetic code: each amino acid is represented by three consecutive nucleotides (a triplet code).

Question 62

Diploid Cell

Answer 62

A cell that contains both sets of homologous chromosomes.

Question 63

DNA Replication (DNA synthesis)

Answer 63

The process of copying the double-stranded DNA prior to cell division.

Question 64

Frameshift Mutation

Answer 64

A genetic mutation that inserts or deletes a number of nucleotides that is not evenly divisible by three from a DNA sequence. Due to the triplet nature of gene expression by codons, the insertion or deletion can disrupt the reading frame, or the grouping of the codons, resulting in a completely different translation from the original. Frameshift mutations frequently result in severe genetic diseases.

Question 65

Genotype

Answer 65

The genetic identity of an individual that does not show as outward characteristics.

Question 66

Geographical Isolation

Answer 66

Describes a process by which a population of a species becomes geographically isolated from the remainder, and over time evolves characteristics different from the parent population (due to natural selection).

Question 67

Gradualism

Answer 67

A slow, steady change in a particular line of decent, rather than rapid change over a relatively short period of time.

Question 68

Haploid Cell

Answer 68

A cell that contains only a single set of chromosomes and therefore only a single set of genes.

Question 69

Meiosis

Answer 69

Cell division that produces reproductive cells in sexually reproducing organisms; the nucleus divides into four nuclei each containing half the chromosome number.

Question 70

Messenger RNA (mRNA)

Answer 70

Template for protein synthesis. Each set of three bases, called codons, specifies a certain protein in the sequence of amino acids that comprise the protein. The sequence of a strand of mRNA is based on the sequence of a complementary strand of DNA.

Question 71

Mitochondrial DNA

Answer 71

A small circular DNA molecule found in the mitochondria of a cell. Mitochondrial DNA is inherited only from the mother.

Question 72

Mitosis

Answer 72

The process by which a cell separates its duplicated genome into two identical halves. It is generally followed immediately by cytokinesis which divides the cytoplasm and cell membrane.

Question 73

Phenotype

Answer 73

The observable traits or characteristics of an organism, for example hair color, weight, or the presence or absence of a disease.

Question 74

Phylogenetic Tree

Answer 74

A tree showing the evolutionary interrelationships among various species or other entities that are believed to have a common ancestor. In a phylogenetic tree, each node with descendants represents the most recent common ancestor of the descendants, and edge lengths correspond to time estimates.

Question 75

Punctuated Equilibrium

Answer 75

Describes an evolutionary pattern marked by long stable periods that are interrupted by rapid changes, and involving many lines of descent.

Question 76

Ribonucleic acid (RNA)

Answer 76

A chemical similar to a single strand of DNA. In RNA, the letter U, which stands for uracil, is substituted for T in the genetic code. RNA delivers DNA’s genetic message to the cytoplasm of a cell where proteins are made.

Question 77

Speciation

Answer 77

A process whereby over time one species evolves into a different species (anagenesis) or whereby one species diverges to become two or more species (cladogenesis).

Question 78

Transfer RNA (tRNA)

Answer 78

Small RNA molecules that carry amino acids to the ribosome for polymerization into a polypeptide. During translation the amino acid is inserted into the growing polypeptide chain when the anticodon of the tRNA pairs with a codon on the mRNA being translated.

Question 79

Active Immunity

Answer 79

An organisms resistance to disease or infection, developed because the organisms immune system has produced antibodies after an infection or inoculation.

Question 80

Bilateral Symmetry

Answer 80

The characteristic, in animals, of being symmetric about a plane running from head to tail.

Question 81

Cephalization

Answer 81

In humans the concentration of nervous tissues at one end of the human embryo to produce the brain and head is called cephalization.

Question 82

Cretaceous Period

Answer 82

From 135 million to 63 million years ago marked by the end of the age of reptiles and the appearance of modern insects and flowering plants.

Question 83

Faunal Succession Theory

Answer 83

Holds that different strata contain particular types of fossilized flora and fauna, and that these fossil forms succeed each other in a specific and predictable order that can be identified over wide distances. This allows for any period of time in the history of the Earth to be identified by the fossils found in a particular stratum.

Question 84

Fixed Action Pattern (FAP)

Answer 84

An inborn sequence of behavior in which variations do not normally occur.

Question 85

Homeostasis

Answer 85

The ability of a living organism to adjust its internal environment to maintain a stable equilibrium; such as the ability of warm-blooded animals to maintain a constant temperature.

Question 86

Lysogenic Infection

Answer 86

An infective process characterized by the incorporation of the DNA of the infecting phage into the host cell chromosome. Once incorporated, the phage DNA replicates along with the host DNA. The incorporated phage DNA is relatively inactive, thus permitting the host cell to continue fairly normal life processes.

Question 87

Lytic Infection

Answer 87

The normal cycle of infection of a cell by a virus or bacteriophage, in which mature virus or phage particles are produced and the cell is then lysed.

Question 88

Non-specific Defense Mechanism

Answer 88

Immune system defenses that do not differentiate between different pathogens, but act as barriers to pathogens. Examples include the skin, mucus, sweat, and tears.

Question 89

Ossification

Answer 89

The process of bone formation, in which connective tissues, such as cartilage are turned to bone or bone-like tissue. It is thought that this process led to bone as a structural element in vertebrates.

Question 90

Passive Immunity

Answer 90

Immunity acquired by the transfer of antibodies from another organism. Passive transfer of antibody from mother to offspring is important for immune defense during the perinatal period.

Question 91

Peristalsis

Answer 91

The rhythmic, wave-like contraction of the digestive track that forces food through it.

Question 92

Specific defense mechanism

Answer 92

An immune response to an antigen in which specific antibodies are created or employed to attack and destroy the antigen.

Question 93

Vasoconstriction

Answer 93

The constriction of the capillaries in the skin in response to cold temperatures.

Question 94

Vasodilation

Answer 94

The opening up of the capillaries of the skin in response to warm temperatures, thus increasing the flow of blood to the surface of the body.

Question 95

Autotroph

Answer 95

An organism that produces organic compounds from carbon dioxide as a carbon source, using either light or reactions of inorganic chemical compounds, as a source of energy. An autotroph is known as a producer in a food chain.

Question 96

Biome

Answer 96

The world’s major communities, classified according to the predominant vegetation and characterized by adaptations of organisms to that particular environment.

Question 97

Commensalism

Answer 97

The association between two organisms of different species in which one derives some benefit while the other is unaffected.

Question 98

Consumers

Answer 98

Any organism which must consume other organisms (living or dead) to satisfy its energy needs. Opposite of autotroph.

Question 99

Decomposers

Answer 99

Organisms (often fungi or bacteria) that break down organic materials to gain nutrients and energy.

Question 100

Density-dependent Limiting Factor

Answer 100

A limiting factor is one that controls a species population size or distribution. A density-dependent limiting factor is dependent on population density (example: the availability of food limiting the size of a local deer population).

Question 101

Density-independent Limiting Factor

Answer 101

A limiting factor is one that controls a species population size or distribution. A density-independent limiting factor is independent of population size or density(example: a forest fire destroys a local deer population).

Question 102

Heterotroph

Answer 102

An organism which requires an external supply of energy in the form of food as it cannot synthesize its own. A heterotroph is known as a consumer in the food chain.

Question 103

Mutualism

Answer 103

Any interaction between two species that benefits both; typically involves the exchange of substances or services.

Question 104

Parasitism

Answer 104

Interaction between two organisms, in which one organism (the parasite) benefits and the other (the host) is harmed.

Question 105

Producers

Answer 105

Any organism which brings energy into an ecosystem from inorganic sources. Most plants and many protists are producers.

Question 106

Symbiotic Relationships

Answer 106

Used to describe organisms (especially of different species) living together but not necessarily in a relationship beneficial to each other.

Question 107

Trophic Level

Answer 107

The position that an organism occupies in the energy pyramid or in the food chain. The trophic level describes what an organism consumes, as well as what consumes the organism.

Question 108

Deposition

Answer 108

Also known as sedimentation, is the geological process whereby material is added to a landform. This is the process by which wind, water or ice create a sediment deposit, through the laying down of granular material that has been eroded and transported from another geographical location.

Question 109

Erosion

Answer 109

The displacement of solids (soil, mud, rock and other particles) by the agents of wind, water or ice, by downward or down-slope movement in response to gravity or by living organisms (in the case of bioerosion). Erosion is distinguished from weathering, which is the decomposition of rock and particles through processes where no movement is involved, although the two processes may be concurrent.

Question 110

Evaporation

Answer 110

The process whereby atoms or molecules in a liquid state (or solid state if the substance sublimes) gain sufficient energy to enter the gaseous state. It is the opposite process of condensation.

Question 111

Fossil Fuels

Answer 111

Hydrocarbons formed from the remains of dead plants and animals. A general term for buried combustible geologic deposits of organic materials, formed from decayed plants and animals that have been converted to crude oil, coal, natural gas, or heavy oils by exposure to heat and pressure in the earth’s crust over hundreds of millions of years.

Question 112

Hydrosphere

Answer 112

Describes the collective mass of water found on, under, and over the surface of a planet.

Question 113

Igneous Rock

Answer 113

Formed when molten rock (magma) cools and solidifies, with or without crystallization, either below the surface as intrusive (plutonic) rocks or on the surface as extrusive (volcanic) rocks.

Question 114

Metamorphic Rock

Answer 114

The result of the transformation of a pre-existing rock type, the protolith, in a process called metamorphism, which means “change in form”. The protolith is subjected to heat (greater than 150 degrees Celsius) and extreme pressure causing profound physical and/or chemical change. The protolith may be sedimentary rock, igneous rock or another older metamorphic rock.

Question 115

Moh’s Hardness Scale

Answer 115

Characterizes the scratch resistance of various minerals through the ability of a harder material to scratch a softer material. It was created, in 1812, by the German mineralogist Friedrich Mohs and is one of several definitions of hardness in materials science.

Question 116

Plate Tectonics

Answer 116

The branch of geology studying the folding and faulting of the earth’s crust.

Question 117

Rock Cycle

Answer 117

A fundamental concept in geology that describes the dynamic transitions through geologic time among the three main rock types: sedimentary, metamorphic, and igneous.

Question 118

Transpiration

Answer 118

The evaporation of water from aerial parts of plants, especially leaves but also stems, flowers and fruits. Transpiration is a side effect of the plant needing to open its stomata in order to obtain carbon dioxide gas from the air for photosynthesis. Transpiration also cools plants and enables mass flow of mineral nutrients from roots to shoots.

Question 119

Water Cycle (hydrological cycle)

Answer 119

The cycle in which water evaporates from the oceans and the land surface, is carried over the earth in atmospheric circulation as water vapor, precipitates again as rain or snow, is intercepted by trees and vegetation, provides runoff on the land surface, infiltrates into soils, recharges groundwater, discharges into streams, and ultimately, flows out into the oceans, from which it will eventually evaporate again.

Question 120

Weathering

Answer 120

The process of disintegration of rocks, soils and their minerals through direct, or indirect contact with the atmosphere. Weathering occurs ‘in situ’, or ‘without movement’, and thus should not to be confused with erosion, which involves the movement and disintegration of rocks and minerals by processes such as water, wind, ice or gravity.

Question 121

Black Hole

Answer 121

A region of space-time which cannot be seen by distant observers because light is trapped by a strong gravitational field.

Question 122

Coma

Answer 122

The spherical region of diffuse gas, about 150,000 km in diameter, which surrounds the nucleus of a comet. Together, the coma and the nucleus form the comet’s head.

Question 123

Comet

Answer 123

A diffuse body of gas and solid particles (such as CN, C2, NH3, and OH), which orbits the Sun. The orbit is usually highly elliptical or even parabolic.

Question 124

Fall Equinox

Answer 124

The time when the sun crosses the plane of the earth’s equator, making night and day of approximately equal length all over the earth and occurring about September 22.

Question 125

Lunar Phase

Answer 125

Any of the aspects or appearances presented by the Moon as seen from Earth, determined by the portion of the Moon that is visibly illuminated by the Sun.

Question 126

Nuclear Fusion

Answer 126

The combining of the nuclei of small atoms to form the nuclei of larger ones, with a resulting release of large quantities of energy; the process that makes the sun shine, and hydrogen bomb explode.

Question 127

Primary Phases

Answer 127

A term used to categorize phases consisting of the new moon, first quarter moon, full moon, and last quarter.

Question 128

Pulsar

Answer 128

An object discovered at Cambridge University in 1967 which has the mass of a star and a radius no larger than that of Earth and which emits radio pulses with a very high degree of regularity.

Question 129

Spring Equinox

Answer 129

The time when the sun crosses the plane of the earth’s equator, making night and day of approximately equal length all over the earth and occurring about March 21.

Question 130

Summer Solstice

Answer 130

The moment when the Earth is in that point of its orbit where the northern or southern hemisphere is most inclined toward the sun.

Question 131

Winter Solstice

Answer 131

The moment when the Earth is in that point of its orbit where the northern or southern hemisphere is most inclined away from the sun.

Question 132

Accuracy

Answer 132

The correctness of a single measurement, assessed by comparing the measurement with the true or accepted value, based on evidence independent of the measurement.

Question 133

Database Software

Answer 133

A systematically arranged collection of computer data, structured so that it can be automatically retrieved or manipulated.

Question 134

Density

Answer 134

A measure of the amount of matter contained by a given volume.

Question 135

Precision

Answer 135

Describes the degree of reproducibility of a measurement.

Question 136

Spreadsheet Software

Answer 136

A computer program that displays numerical data in cells in a simulated accountant’s worksheet of rows and columns in which hidden formulas can perform calculations on the visible data. Changing the contents of one cell can cause automatic recalculation of other cells.

Question 137

Word Processing Software

Answer 137

An application that provides the user with tools needed to write and edit and format text and to send it to a printer.