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