Ýâêëèä       Euclid Ýâîëþöèîííàÿ äåñòðóêöèÿ       Evolutionary destruction Ýäèñîí       Edison Ýæåêòèðóþùèé âîçäóõ âûñîêîãî äàâëåíèÿ       High-pressure inducing air Ýéçåíøòåéí       Eisenstein Ýéêåí       Aiken Ýéëåíáåðã       Eilenberg Ýéëåð       Euler Ýéìñ       Ames Ýéíòõîôåí       Einthoven Ýéíøòåéí       Einstein Ýéðè       Airy Ýéòêåí       Aitken Ýêâèâàëåíò òåïëà       The (mechanical) equivalent of heat Ýêâèâàëåíòíîå ïîíÿòèå       The probability is an abstract counterpart of the empirical frequency ratio Ýêâèâàëåíòíîñòü íîðì       Norm equivalence       Equivalence of norms Ýêêåðò       Eckert Ýêìàí       Ekman Ýêîíîìèòü       To save (time and space) Ýêîíîìèÿ       Sparse matrix solvers have even greater potential savings by storing and operating only on nonzero elements Saving of ten per cent in cost Ýêîíîìèÿ âðåìåíè       A gain of time Ýêîíîìèÿ âû÷èñëèòåëüíûõ çàòðàò       Savings in computational time Ýêîíîìîñ       Economos Ýêðàíèðîâêà èçëó÷åíèÿ       Radioactive screening Ýêñïåðèìåíò íà ïîëçó÷åñòü       Creep experiment Ýêñïåðèìåíò íà ïîëçó÷åñòü ïðè ñäâèãå       Shear creep experiment Shear creep test Ýêñïåðèìåíò íàä       Experiment on atomic structures (on myself, on oneself) Ýêñïåðèìåíò íàä èîííî-àêóñòè÷åñêèì ñîëèòîíîì       Experiment on the ion-acoustic soliton Ýêñïåðèìåíòàëüíî ïîêàçàòü (äîêàçàòü)       To show (prove) by experiments Ýêñïåðèìåíòàëüíûé ìåòîä       Cut and try (trial and error) method Ýêñïåðèìåíòû ïåðâûå ïðîâîäèëèñü       Experiments were first made in microgravity Ýêñïåðèìåíòû ïî ...       Fragmentation experiments for the evaluation of the small-size debris populations ... Ýêñïîíåíöèàëüíî ìàëàÿ       Exponentially small quantity Ýëàéçèíã       Aliasing Ýëåêòðèçàöèè òîê       Electrification current Ýëåêòðè÷åñêàÿ íàïðÿæåííîñòü       Electric intensity Ýëåêòðîííî-âîçáóæäåííûé       Electron-excited Ýëåêòðîñòðèêöèîííûé       Electrostrictive Ýëåìåíò äðîáíîãî èñ÷èñëåíèÿ       Fractional calculus element Ýëåìåíòàðíàÿ ðàáîòà       Elementary work Ýëåìåíòàðíàÿ ñèëà äàâëåíèÿ       Elementary pressure force Ýëåìåíòàðíûé äåëèòåëü       Elementary divisor Ýëåìåíòû ðàñïàäà àòîìîâ       Fragments of atoms Ýëåìåíòû òîïëèâíûå       Individual fuel cells when combined in parallel or in series make (form) fuel batteries

Ýëåðñ       Ehlers Ýëçàññåð       Elsasser Ýëëèïòè÷åñêàÿ íîðìà       Elliptic norm Elliptical norm Ýëëèïòè÷åñêàÿ ùåëü       Elliptical slot Ýëüñãîëüö       Ehl'sgol'ts Ýìäåí       Emden Ýíãëåð       Engler Ýíäîõðîííàÿ òåîðèÿ       Endochronic theory Ýíåðãåòè÷åñêàÿ âîëíà       Energy wave Ýíåðãåòè÷åñêèé òåíçîð íàïðÿæåíèé       Energy-stress tensor Ýíåðãèè (ìíîæåñòâåííîå ÷èñëî èìååòñÿ)       Energies Ýíåðãèÿ (ìîæåò óïîòðåáëÿòüñÿ ñ íåîïðåäåëåííûì àðòèêëåì)       Traditional accelerators are too small for obtaining such an energy Ýíåðãèÿ--èìïóëüñ       Energy--momentum Ýíåðãèÿ äâèæåíèÿ       Energy of motion Ýíåðãèÿ èìïóëüñà       Momentum energy Ýíåðãèÿ êðóòèëüíàÿ       Torsional energy Ýíåðãèÿ ìàêñèìàëüíàÿ       Peak energy Ýíåðãèÿ íàòÿæåíèÿ       Energy of tension Ýíåðãèÿ ïîêîÿùåéñÿ ìàññû       Rest mass energy Ýíåðãèÿ ïîëîæåíèÿ       Energy of position Potential energy Ýíåðãèÿ ñòàðåíèÿ       Energy of aging Ýíåðãîåìêèå ïðåäïðèÿòèÿ       Energy-consuming enterprises Ýíåðãîåìêîñòü       Energy capacity Power consumption Ýíåðãîíàñûùåííàÿ ñðåäà       Energy-saturated medium Ýíî       Henon Ýðàòîñôåí       Eratosthenes Ýðá       Erb Ýðáðàí       Herbrand Ýðäåè       Erdelyi Ýðäåø       Erdös Ýðäìàí       Erdmann Ýðè       Airy Ýðëàíã       Erlang Ýðìèò       Hermite Ýðìèòîâî ÿäðî       Hermitian kernel Ýðñòåä       Oersted, Örsted Ýñêèçíîå ïðîåêòèðîâàíèå       Preliminary design Ýòàï       There are two stages (phases) to the solution of these problems by numerical methods Ýòâåø       Eötvös Ýôôåêò Ïîéíòèíãà       Poynting effect Ýôôåêòèâíîñòü ïî ñòîèìîñòè       Cost effectiveness Cost efficiency Ýôôåêòèâíûé ïî ïàìÿòè       These methods are quite storage efficient Ýôôåêòèâíûé óãîë àòàêè       The faster the body flies, the smaller the effective attack angle becomes Ýøåëáè       Eshelby