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13y ago

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What topic does not involve science?

nonscience ... or is that nonsense?


What is a nonscience career and describe how it uses science?

Electricians. Electricians uses (life/earth and space/physical) science.


How would a knowledge of science benefit a gardener?

in many nonscience careers, knowledge of science is essential in order to perform the job.


What is the word meaning of nonscience?

Non-science is anything not related to science or in the field of the studies of science. For example, philosophy is non-science.


What kind of studies is outside the realm of science?

Science is separated from non-science by the criteria of falsifiability. Religion study can't be proved to be false for the statement "God created the universe" and so it is nonscience. Philosophy is base on scenario and logic and mostly can't be prove whether one would be truer than other and thus is nonscience. Mathematics fall in the same category as Philosophy though it is the great tool in science but the pure Math is nonscience. Literature is also the study outside realm of science for it is the emotional quality and not the matter that can be prove if it is right or wrong.


Which one of the sentences uses the best closeup words a. sara is pursuing a degree b. sara is pursuing a nonscience degree c.sara is studying languages d.sara is studying french and German?

D


Why is philosophy a nonscience?

Science is based on physical experiments but philosophical propositions can not be verified physically through experimentation that is how categorized as non-science. Philosophy concerned with perception of the subject hence verification only possible with so called subjects.


What has the author George L Carr written?

George L Carr has written: 'The development construction, and validation of a test of problem-solving ability in physical science for use with nonscience majors in college' -- subject(s): Ability testing, Physics, Problem solving


Many nonscience careers require a knowledge of science because workers must?

a. Develop new scientific laws and theories.b. Use materials and processes that follow scientific principles.c. Use the process of scientific inquiry.d. Keep up with new developments in science.


What are the important contributions of James Watson?

Discovered DNA, professor of Biology at Harvard , Nobel prize in 1962, wrote a book called THE DOUBLE HELIX , uncovered the molecular nature of cancer, ran the human genome project and identified 50,000 to 100,000 genes.


What words end with ence?

abhorrence absence abstinence accidence acquiescence adherence adolescence advertence affluence ambience ambivalence antecedence antiscience antiviolence appetence arborescence ascendence audience belligerence beneficence benevolence bioluminescence bioscience birefringence cadence candescence chemiluminescence circumference clairaudience clarence coalescence codependence coexistence coherence coincidence commence competence complacence concrescence concupiscence concurrence condescendence condolence conference conferrence confidence confluence congruence conscience consequence consistence continence contingence convalescence convenience convergence corpulence correspondence counterevidence counterinfluence counterintelligence countertransference counterviolence covalence credence decadence defence deference defervescence dehiscence deliquescence dependence despondence deterrence detumescence difference diffidence diligence disobedience dissidence divergence divulgence ebullience effervescence efflorescence effluence effulgence electroluminescence eloquence emergence eminence equipollence equivalence essence esurience ethnoscience evanescence evidence excellence excrescence exigence existence expedience experience faience feculence fence flatulence florence florescence fluorescence fraudulence frequence geoscience grandiloquence halfpence hence hypersomnolence immanence imminence immunocompetence immunofluorescence impatience impenitence impercipience impermanence impertinence impotence improvidence imprudence impudence inadvertence inappetence incalescence incandescence incidence incipience incoherence incompetence incongruence inconsequence inconsistence incontinence inconvenience incurrence indehiscence independence indifference indigence indolence indulgence inexistence inexpedience inexperience inference inflorescence influence infrequence inherence innocence insentience insistence insolence insurgence intelligence interdependence interference interinfluence intermittence intransigence intumescence iridescence irreverence jurisprudence juvenescence lenience licence lucence luminescence magnificence magniloquence maleficence malevolence mergence misreference multivalence munificence nascence negligence nescience neuroscience noncoincidence nonconcurrence nonconference nonconfidence nonequivalence nonevidence nonexistence nonindependence noninfluence noninterference nonoccurrence nonresidence nonscience nonsentence nonviolence obedience obsolescence occurrence offence omnicompetence omnipotence omnipresence omniscience opalescence opulence overconfidence overdependence overindulgence patience pearlescence pence penitence percipience permanence persistence pertinence pestilence phosphorescence polyvalence postemergence postexperience postindependence potence preadolescence precedence preemergence preeminence preexistence preference prepubescence prescience presence presentence pretence prevalence prominence provenience providence prudence prurience pseudoscience pubescence purulence putrescence quiescence quintessence recommence recrudescence recurrence redolence reemergence reexperience refence reference refluence refulgence rejuvenescence remanence reminiscence renascence reoccurrence resentence residence resilience resplendence resurgence reticence reverence reviviscence salience sapience science senescence sentence sentience sequence silence sithence sixpence somnolence spence stridence submergence subscience subsentence subsequence subservience subsidence subsistence succulence supereminence superintelligence superintendence tangence teleconference tendence tenpence thence thermoluminescence thermoremanence threepence transcendence transference transience translucence transparence triboluminescence truculence tumescence tuppence turbulence turgescence twopence ultraviolence unfence valence vehemence vergence videoconference violence virescence virulence whence


What is the job outlook for an Astronomer?

Job Outlook Employment of physicists and astronomers is expected to grow more slowly than average for all occupations through 2014. Federal research expenditures are the major source of physics-related and astronomy-related research funds, especially for basic research. Although these expenditures are expected to increase over the 2004-14 projection period, resulting in some growth in employment and opportunities, the limited science research funds available still will result in competition for basic research jobs among Ph.D. holders. The need to replace physicists and astronomers who retire or otherwise leave the occupation permanently will account for most expected job openings. Although research and development expenditures in private industry will continue to grow, many research laboratories in private industry are expected to continue to reduce basic research, which includes much physics research, in favor of applied or manufacturing research and product and software development. Nevertheless, persons with a physics background continue to be in demand in the areas of information technology, semiconductor technology, and other applied sciences. This trend is expected to continue; however, many of the new workers will have job titles such as computer software engineer, computer programmer, or systems analyst or developer, rather than physicist. Throughout the 1990s, the number of doctorates granted in physics was much greater than the number of job openings for physicists, resulting in keen competition, particularly for research positions in colleges and universities and in research and development centers. Recent increases in undergraduate physics enrollments, however, may lead to growth in enrollments in graduate physics programs, so that toward the end of the projection period, there may be an increase in the number of doctoral degrees granted that will intensify the competition for job openings. Opportunities may be more numerous for those with a master's degree, particularly graduates from programs preparing students for applied research and development, product design, and manufacturing positions in private industry. Many of these positions, however, will have titles other than physicist, such as engineer or computer scientist. Persons with only a bachelor's degree in physics or astronomy are not qualified to enter most physicist or astronomer research jobs, but may qualify for a wide range of positions related to engineering, mathematics, computer science, environmental science, and, for those with the appropriate background, some nonscience fields, such as finance. Those who meet State certification requirements can become high school physics teachers, an occupation in strong demand in many school districts. Most States require new teachers to obtain a master's degree in education within a certain time. (See the statement on teachers-preschool, kindergarten, elementary, middle, and secondary elsewhere in the Handbook.) Despite competition for traditional physics and astronomy research jobs, graduates with a physics or astronomy degree at any level will find their knowledge of science and mathematics useful for entry into many other occupations. In other words, the sky's the limit.