Mga halimbawa ng paggamit ng Electromagnetism sa Ingles at ang kanilang mga pagsasalin sa Tagalog
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Crop circles- Electromagnetism.
I-crop ang mga lupon- Electromagnetism.Solenoid valve is an industrial equipment controlled by electromagnetism.
Ang Next into predictions: electromagnetism, static electricity.
Susunod sa hula: Electromagnetism, static koryente.Their reflections consistently connect electromagnetism.
Kanilang mga reflections Pantay-pantay na kumonekta Electromagnetism.Because of his great contribution to electromagnetism, he is known as the"father of electricity" and"the father of alternating electricity.".
Dahil sa kanyang malaking kontribusyon sa electromagnetism, siya ay kilala bilang" ama ng kuryente" at" ang ama ng alternating kuryente.".Maxwell's equations in electromagnetism.
Ang kahalagahan ng Maxwell equation sa electromagnetism.He made significant contributions to electromagnetism although he was always less interested in the physics, more in the mathematics.
Siya na ginawa ng makabuluhang kontribusyon sa electromagnetism kahit na siya ay palaging hindi gaanong interesado sa physics, more sa matematika.Maxwell's equations of Electromagnetism.
Ang kahalagahan ng Maxwell equation sa electromagnetism.The law was first published in 1785 by French physicist Charles Augustin de Coulomb andwas essential to the development of the theory of electromagnetism.
Ito ay unang inilimbag noong 1785 ng pisikong Pranses na si Charles Augustin de Coulomb atmahalaga sa pagpapaunlad ng teoriya ng elektromagnetismo.Consult unread newest Electromagnetism of fuel.
It is now considered to be a part of the engineering discipline as much as thermodynamics,mechanics, and electromagnetism.
Tinuturi na itong bahagi ng disiplina ng inhinyeriya kagaya ng thermodynamics,mekanika, at elektromagnetismo.The compass uses magnetism and the principles of electromagnetism to be able to tell the correct direction.
Ang compass ay gumagamit ng pang-akit at ang mga prinsipyo ng electromagnetism upang magagawang upang sabihin ang tamang direksyon.Weyl was to take up Levi-Civita's ideas andmake them into a unified theory of gravitation and electromagnetism.
Weyl ay mag-up Levi-Civita ng mga ideya atgawin ang mga ito sa isang pinag-isa teorya ng grabitasyon at electromagnetism.One of thefirst topics he studied, which developed from his early work on electromagnetism, was a new topic, now called the fractional calculus.
Isa ng ang unang paksa siya-aral, nakung saan binuo mula sa maagang bahagi ng kanyang trabaho sa electromagnetism, ay isang bagong paksa, na tinatawag na ngayon ang fractional calculus.In fact, it is a very simple physical law that reveals the hidden unity of gravity and electromagnetism.
Sa katunayan, ito ay isang napaka-simpleng pisikal na batas na nagpapakita ng nakatagong pagkakaisa ng gravity at electromagnetism.Heaviside results on electromagnetism, impressive as they were, were overshadowed by the important methods in vector analysis which he developed in his investigations.
Heaviside resulta sa electromagnetism, kahanga-bilang sila ay, ay overshadowed ng mahalagang pamamaraan sa vector analysis na binuo niya sa kanyang mga pagsisiyasat.The importance of Coulomb's law for the development of electromagnetism is examined and discussed.
Ang kahalagahan ng Coulomb ng batas para sa pag-unlad ng electromagnetism ay iksaminin at tinalakay.This work by Thomson in 1856 on electricity andmagnetism is important for it was these ideas which led Maxwell to develop his remarkable new theory of electromagnetism.
Ang trabaho sa pamamagitan ng Thomson sa 1856 sa koryente atbalani ay mahalaga para sa mga ito ay ang mga ideya na humantong Maxwell upang bumuo ng pansin ang kanyang bagong teorya ng electromagnetism.A good example is classical electromagnetism, which encompasses results derived from gauge symmetry(sometimes called gauge invariance) in a form of a few equations called Maxwell's equations.
Isang magandang halimbawa ay ang klasikong electromagnetismo, na sumasaklaw sa mga resulta na nagmula sa gauge symmetry( minsan ay tinatawag ding gauge invariance) na nasa anyo ng iba sa mga tumbasan ni Maxwell.This principle is also a general law for all physical theories(mechanics, electromagnetism, nuclear physics,…).
Ang prinsipyong ito ay pangkalahatang batas para sa lahat ng mga pisikal na teoryang( mechanics, electromagnetism, nuclear physics,…).In every branch of physics, including classical mechanics,optics, electromagnetism, quantum mechanics, and quantum electrodynamics, they are used to study physical phenomena, such as the motion of rigid bodies.
Sa bawat sangay ng pisika, kabilang ang mga klasikong mekaniks,optika, elektromagnetismo, mekaniks na kwantum, at elektrodinamikang kwantum, ginagamit ito upang pag-aralan ang mga pisikal na kababalaghan, tulad ng paggalaw ng matibay na katawan.Within electromagnetic theory generally,there are numerous hypotheses about how electromagnetism applies to specific situations.
Sa teorya ng electromagnetismo, karaniwan naIn classical electromagnetism, Ampère's circuital law(not to be confused with Ampère's force law that André-Marie Ampère discovered in 1823) relates the integrated magnetic field around a closed loop to the electric current passing through the loop.
Sa klasikong elektromagnetismo, ang batas na pangsirkito ni Ampère na natuklasan ng Pranses na si André-Marie Ampère noong 1826 ay naguugnay ng integradong magnetikong field sa palibot ng isang saradong loop sa kuryenteng elektriko sa dumadaan sa loop.These include classical mechanics, quantum mechanics, thermodynamics andstatistical mechanics, electromagnetism, and special relativity.
Ang mga ito ay kinabibilangan ng klasikong mekanika, mekanikang kwantum, termdinamika,estradistikal na mekanika, elektromagnetismo, at espesyal na relatibidad.This principle is also a general law for all physical theories(mechanics, electromagnetism, nuclear physics,…) We never found any exceptions to it, Although there is sometimes had doubts, especially about radioactive decay.
Ang prinsipyong ito ay pangkalahatang batas para sa lahat ng mga pisikal na teoryang( mechanics, electromagnetism, nuclear physics,…) Hindi namin nakita sa kanya ang anumang pagbubukod, bagama't may mga pagdududa kung minsan, lalo na tungkol sa mga radioactive decay.There I attended his lectures on the Elie Cartan calculus of differential forms and their application to electromagnetism- eloquent, simple, full of insights.
Doon ako pumasok sa kanyang lektura sa Elie Cartan calculus ng mga kaugalian at sa kanilang mga application forms sa electromagnetism- magaling magsalita, simpleng, puno ng mga pananaw.It was at this conference that Klein suggested that a spin -1 particle mediated beta decay andplayed a role in weak interactions in a similar manner to the photon in electromagnetism.
Ito ay sa kumperensyang ito na Klein iminungkahi na ang isang magsulid- 1 particle mediated beta pagkabulok atnilalaro ng isang papel sa mga mahihinang mga pakikipag-ugnayan sa isang katulad na paraan upang ang poton sa electromagnetism.Thus the gravitino is the fermion mediating supergravity interactions,just as the photon is mediating electromagnetism, and the graviton is presumably mediating gravitation.
Kaya He moved on to reading the works of Fourier andFresnel and he began his own experimental work in the school physics laboratory after he had learnt of Oersted's discovery of electromagnetism in 1820.
Siya ay inilipat sa pagbabasa ng mga gawa ng Fourier at Fresnel atsiya ay nagsimulang kanyang sariling experimental trabaho sa paaralan physics laboratoryo matapos siya had learnt ng ested's pagkatuklas ng electromagnetism sa 1820.I work on partial differential equations which were originally derived from the need to describe things like electromagnetism, but have undergone a century of change in which they are used in a much more technical fashion to look at the shapes of space.
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