Supernova in a sentence

(1) The astronomer observed a supernova.

(2) I saw a supernova through my telescope.

(3) The telescope is in range of the supernova.

(4) The astronomer observed a supernova explosion.

(5) The occurrence of a supernova is a rare event.

(6) The Eridanus Loop is a large supernova remnant.

(7) The telescope was able to reveal the supernova.

(8) The supernova passes over in the exploding star.

(9) The occurrence of a supernova can be fascinating.

(10) Neutrinos are emitted during supernova explosions.

Supernova sentence

(11) Astrophysically analyze the supernova's explosion.

(12) Neutron stars are remnants of supernova explosions.

(13) Gamma rays are emitted during supernova explosions.

(14) The consortium of astronomers observed a supernova.

(15) The weight of the supernova was measured in pounds.

(16) The supernova explosion was galactically spectacular.

(17) The Crab Nebula is a remnant of a supernova explosion.

(18) The irruption of the supernova was visible from Earth.

(19) The small star dwarfed under the size of the supernova.

(20) The calving of a star can create a supernova explosion.

Supernova make sentence

(21) The antipode of my favorite supernova is in the cosmos.

(22) The sun will eventually explode and become a supernova.

(23) The nebular cloud is a remnant of a supernova explosion.

(24) The crab nebula is the remnant of a supernova explosion.

(25) The decomp of a star can result in a supernova explosion.

(26) The stargazer's dream is to witness a supernova explosion.

(27) The slowgrowing star eventually exploded into a supernova.

(28) The starlog entry mentioned the appearance of a supernova.

(29) The gamma ray burst originated from a supernova explosion.

(30) The Eridanus Loop is a large supernova remnant in the sky.

Sentence of supernova

(31) The amount of energy released by a supernova is astronomic.

(32) The cosmical energy released during a supernova is immense.

(33) The luminosity of a supernova can outshine an entire galaxy.

(34) The supernova emitted a brilliant burst of light and energy.

(35) The white dwarf star is the result of a supernova explosion.

(36) The interstellar medium is affected by supernova explosions.

(37) The amount of energy released by a supernova is incomputable.

(38) The supernova had the power to annihilate entire star systems.

(39) The astronomer found vestiges of a supernova in the night sky.

(40) The formation of a supernova is a massive explosion of a star.

Supernova meaningful sentence

(41) The disintegrations of the star's core resulted in a supernova.

(42) Betelgeuse is expected to explode as a supernova in the future.

(43) The astronomer discovered a galactically rare type of supernova.

(44) The Crab Nebula is a prime example of a young supernova remnant.

(45) The astronomer sighted a supernova explosion in a distant galaxy.

(46) The black-dwarf supernova was observed by astronomers last night.

(47) The absorption-line pattern revealed the presence of a supernova.

(48) Blueshifts in the light from a supernova can reveal its velocity.

(49) I peer around the galaxy, hoping to witness a supernova explosion.

(50) The absolute magnitude of the supernova was estimated to be -19.3.

Supernova sentence examples

(51) The explosion of a nova can release as much energy as a supernova.

(52) The explosion of a supernova can briefly outshine an entire galaxy.

(53) Neutrinos are created in large numbers during supernova explosions.

(54) Rigel is so massive that it will eventually explode as a supernova.

(55) Beam me up, Scotty, I want to witness the formation of a supernova.

(56) The cosmical energy released during supernova explosions is immense.

(57) Astronomers uncover vestiges of a supernova explosion in deep space.

(58) The Cygnus Loop is a supernova remnant located in the constellation.

(59) The astrophysicist observed the supernova, so she recorded the data.

(60) The astronomer observed the star before it exploded into a supernova.

Sentence with supernova

(61) The light from a supernova can take millions of years to reach Earth.

(62) The collapse of a collapsar can lead to the formation of a supernova.

(63) Cosmic rays can be used to study the history of supernova explosions.

(64) Bolometrically, the supernova was one of the brightest ever observed.

(65) The shockwave from a supernova can trigger the formation of new stars.

(66) The spectrograph captured the emission lines of a supernova explosion.

(67) The shockwaves from a supernova could rattle up and down the universe.

(68) The astronomer observed vestigia of a supernova in the distant galaxy.

(69) The discovery of the first supernova was a major scientific discovery.

(70) The astronomical event of a supernova is a rare and spectacular sight.

Use supernova in a sentence

(71) The halo of a supernova can be seen from millions of light years away.

(72) The explosion of a supernova can create a burst of gamma-ray radiation.

(73) The remnants of a supernova can become a breeding ground for new stars.

(74) The collapse of a collapsar can result in the formation of a supernova.

(75) The supernova explosion illuminated space like a bright flash of light.

(76) The Cassiopeia A supernova remnant is a popular target for astronomers.

(77) The energy from the ancient supernova has dissipated over the millennia.

(78) Astronomers believe that Antares will eventually explode in a supernova.

(79) The supernova explosion sent shockwaves rattling up and down the galaxy.

(80) The red giant's eventual collapse would result in a supernova explosion.

Sentence using supernova

(81) Tycho Brahe's observations of the supernova of 1572 were groundbreaking.

(82) The amount of energy released during a supernova is astronomically high.

(83) We need to enter orbit around a supernova remnant to observe its remnants.

(84) The apparent-magnitude of the supernova was incredibly bright and intense.

(85) The Veil Nebula is a supernova remnant located in the constellation Cygnus.

(86) The first recorded supernova was observed by Chinese astronomers in 185 AD.

(87) The metallicity of a star can influence the type of supernova it undergoes.

(88) The librations of the supernova's explosion release vast amounts of energy.

(89) The astrogator's keen eye spotted a distant supernova on the ship's sensors.

(90) A supernova is a powerful explosion that occurs at the end of a star's life.

Supernova example sentence

(91) The energy released during a supernova explosion is astronomically powerful.

(92) The collapsing star folded in on itself, resulting in a supernova explosion.

(93) The astronomer recognized vestiges of a supernova in the remnants of a star.

(94) Neutron capture is a process that occurs in the outer layers of a supernova.

(95) The supernova explosion sent shockwaves that rattled up and down the galaxy.

(96) The explosion of a supernova can create heavy elements like gold and uranium.

(97) The emission spectrum of a supernova can provide insights into its explosion.

(98) The astronomer observed a supernova in the upper left quadrant of the galaxy.

(99) The explosion of a supernova can create heavy elements like gold and platinum.

(100) The shockwave from a supernova can trigger the formation of planetary systems.

Sentence with word supernova

(101) The astronomers observed the supernova photometrically to track its evolution.

(102) The Cassiopeia A supernova remnant is one of the brightest objects in the sky.

(103) The brightness of a supernova can outshine an entire galaxy for a brief period.

(104) The explosion of a supernova can create a shockwave that travels through space.

(105) The collapse of a collapsar can result in the formation of a supernova remnant.

(106) The redshifted spectrum of a supernova can provide insights into its explosion.

(107) The photometrist's calculations helped determine the luminosity of a supernova.

(108) The energy released by a supernova is equivalent to a quadrillion atomic bombs.

(109) Betelgeuse is expected to explode as a supernova within the next million years.

(110) The metallicity of the supernova remnant was analyzed using X-ray spectroscopy.

Sentence of supernova

(111) The energy released during a supernova explosion is in the decillions of joules.

(112) Blueshifts in the light from a supernova remnant can reveal its shockwave speed.

(113) Antineutrinos are believed to play a role in the process of supernova explosions.

(114) The radial velocity of a supernova can be used to determine its distance and age.

(115) The light from a supernova can be used to measure the distance to its host galaxy.

(116) The explosion of a supernova can create a black hole if the star's core collapses.

(117) The Crab Nebula was formed from a massive star that exploded in a supernova event.

(118) Thermonuclear reactions are the driving force behind the explosion of a supernova.

(119) The discovery of the first supernova helped us understand the life cycle of stars.

(120) The supermassive explosion of a supernova can release an enormous amount of energy.

Supernova used in a sentence

(121) Rigel is a massive star that will eventually end its life in a supernova explosion.

(122) The launch to the supernova will provide valuable insights into stellar explosions.

(123) The energy released by a supernova can create shockwaves that travel through space.

(124) The explosion of a supernova can create a black hole if the star is massive enough.

(125) The brightness of a supernova can vary depending on the type of star that exploded.

(126) The celestial event of a supernova explosion releases an enormous amount of energy.

(127) The shockwave from a supernova can trigger the collapse of nearby molecular clouds.

(128) The brightness of a supernova can be used to measure the distance to other galaxies.

(129) The energy released by a supernova can cause nearby stars to undergo nuclear fusion.

(130) The light from a supernova can outshine an entire galaxy for a short period of time.

Supernova sentence in English

(131) Betelgeuse is expected to collapse under its own gravity and explode as a supernova.

(132) The Cassiopeia A supernova remnant is one of the brightest objects in the radio sky.

(133) The remnants of a supernova can continue to expand and evolve for thousands of years.

(134) Nebulas are often associated with the death of massive stars in supernova explosions.

(135) The supernova explosion caused the remnants of the star to bolt out of the Milky Way.

(136) Astronomers have been closely monitoring Betelgeuse for signs of potential supernova.

(137) The line spectrum of a supernova explosion can provide insights into nucleosynthesis.

(138) The Crab Nebula is a remnant of a supernova explosion that occurred in the year 1054.

(139) The light from the supernova radiated past the stars, illuminating the entire galaxy.

(140) The light from a supernova can be visible for weeks or even months before fading away.

(141) The bolometric luminosity of the supernova increased rapidly before reaching its peak.

(142) The Cassiopeia A supernova remnant is one of the most studied objects in the universe.

(143) The team investigated the spectral variability of the supernova to determine its type.

(144) The energy from the supernova radiated past the stars, illuminating the entire galaxy.

(145) The lightcurve of the supernova revealed a sudden and dramatic increase in brightness.

(146) The brightness of a supernova can outshine an entire galaxy for a brief period of time.

(147) The energy released during a supernova explosion is measured in quadrillions of joules.

(148) The astronomer used telescopes to detect past supernova explosions in distant galaxies.

(149) The absolute magnitude of a supernova can be used to determine its distance from Earth.

(150) Johannes Kepler's observations of the supernova of 1604 were groundbreaking at the time.

(151) When a star runs out of fuel, its iron core collapses, triggering a supernova explosion.

(152) The brightness of a supernova can be used to estimate the mass of the star that exploded.

(153) The energy released by a supernova can have a significant impact on surrounding galaxies.

(154) The bolometric signature of the supernova was detected by observing its thermal emission.

(155) The radial velocity of the supernova indicated it was moving away from us at a rapid pace.

(156) Rigel's immense size and mass make it prone to a violent end as a supernova in the future.

(157) A collapsar is a type of supernova that occurs when a massive star collapses in on itself.

(158) The Carinae system is believed to have undergone several supernova explosions in the past.

(159) The shockwave from a supernova can trigger the formation of new stars in nearby gas clouds.

(160) The brightness of a supernova can fade over time as the remnants of the explosion disperse.

(161) The red giant star's expansion will eventually lead to its demise in a supernova explosion.

(162) The bolometric magnitude of the supernova indicated its peak brightness and energy release.

(163) The shockwave from a supernova can trigger the formation of new chemical compounds in space.

(164) The supernova explosion radiated past the stars, leaving behind a remnant of stellar debris.

(165) Betelgeuse is expected to undergo a dramatic transformation when it explodes as a supernova.

(166) The red shift of light from a supernova can provide clues about the nature of the explosion.

(167) The lifecycle of a star can result in the formation of a black hole or a supernova explosion.

(168) The explosion of Antares as a supernova would be visible from Earth, even during the daytime.

(169) The metallicity of the supernova remnant was found to be consistent with a Type Ia explosion.

(170) The explosion of a supernova can release more energy than our sun will in its entire lifetime.

(171) The redshifted gamma rays from a supernova explosion can be detected by a gamma-ray telescope.

(172) The radial velocity of the supernova indicated it was moving away from us at a constant speed.

(173) The Crab Nebula is a remnant of a supernova explosion observed by Chinese astronomers in 1054.

(174) The astronomer identified a supernova explosion in a distant star at the edge of the universe.

(175) The explosion of a supernova can create shockwaves that trigger the formation of new galaxies.

(176) The light time it takes for a star to explode and become a supernova can be millions of years.

(177) Pulsars are formed from the remnants of massive stars that have undergone supernova explosions.

(178) The parallactic shift of a supernova can provide information about its distance and brightness.

(179) The lightcurve of the supernova remnant displayed a complex pattern of brightness fluctuations.

(180) The remnants of a supernova can be detected through their radio emissions and X-ray signatures.

(181) Nebulium emissions can be used to study the effects of supernova explosions on interstellar gas.

(182) The supernova explosion caused debris to bolt out of the galaxy and scatter across the universe.

(183) The extragalactic supernova rate is used to estimate the rate of star formation in the universe.

(184) The light from a supernova can be so bright that it temporarily outshines its entire host galaxy.

(185) The spectral velocity of the supernova indicated that it was moving away from us at a high speed.

(186) Because Alcyone is a massive star, it will eventually run out of fuel and explode in a supernova.

(187) The energy released during a supernova can cause nearby gas clouds to collapse and form new stars.

(188) The right ascension of a supernova can help astronomers pinpoint its location in a distant galaxy.

(189) When a star reaches the end of its life cycle, it can break down into matter and form a supernova.

(190) The discovery of the first supernova in a distant galaxy provided insight into the early universe.

(191) The explosion of a supernova can release more energy than our sun will emit in its entire lifetime.

(192) The energy released by a supernova can cause nearby stars to go through a phase of rapid expansion.

(193) The explosion of a supernova can create shockwaves that trigger the formation of new solar systems.

(194) Brahe's observations of the supernova in 1572 were significant in understanding stellar explosions.

(195) The extragalactic supernova rate is an important factor in understanding the evolution of galaxies.

(196) The discovery of the first supernova in the Milky Way helped us understand the life cycle of stars.

(197) Kepler's observations of the supernova in 1604 helped disprove the notion of the unchanging heavens.

(198) The light from the most distant supernova ever observed took over 13 billion light-years to reach us.

(199) The observation of an extrasolar supernova allowed scientists to study the explosive death of a star.

(200) Antares is nearing the end of its life cycle and is expected to explode as a supernova in the future.

(201) The lightcurve of the supernova revealed a rapid increase in brightness followed by a gradual decline.

(202) The life cycle of a star recurs in a cycle from nebula to protostar to main sequence star to supernova.

(203) The forecast outside of the galaxy is predicting a supernova explosion to happen in the distant future.

(204) The spectral-line shape of the supernova indicated a high level of energy release during the explosion.

(205) Despite its beauty, the blue star is actually a dying star that will eventually explode in a supernova.

(206) Johannes Kepler's observations of the supernova of 1604 challenged the notion of the unchanging heavens.

(207) The blueshifted spectral lines of the supernova suggested that it was moving away from us at high speed.

(208) Tycho Brahe's observations of a supernova in 1572 revolutionized the understanding of stellar explosions.

(209) The magnetic field strength of a supernova explosion can create intense radiation and particle emissions.

(210) The redshifted light from the supernova indicated that it was moving away from us at a significant speed.

(211) The blueshifted light from a supernova explosion can help scientists understand the dynamics of the event.

(212) The galaxy NGC 6946 is sometimes called the Fireworks Galaxy because of its frequent supernova explosions.

(213) The nebular hypothesis suggests that the sun and planets formed from the remnants of a supernova explosion.

(214) Rigel's explosion as a supernova could be visible from Earth, even though it is hundreds of light-years away.

(215) The explosion of a supernova can be so bright that it can be visible during the day for a short period of time.

(216) The scientists analyzed the spectral variability of the supernova to determine its age and distance from Earth.

(217) The gamma rays from the supernova radiated towards the earth, causing a temporary increase in radiation levels.

(218) Magnetars are believed to be formed from the remnants of massive stars that have undergone supernova explosions.

(219) Tycho Brahe's work on the supernova of 1572 challenged the prevailing belief in the immutability of the heavens.

(220) The remnants of a supernova can provide valuable insights into the processes that occur during stellar evolution.

(221) Tycho Brahe's observations of the supernova of 1572 challenged the Aristotelian notion of the unchanging heavens.

(222) If you observe a supernova remnant nebula, you can see how it expands and interacts with interstellar gas and dust.

(223) The remnants of a supernova can create a beautiful display of colors as they interact with surrounding gas and dust.

(224) Tycho Brahe's observations of a supernova in 1572 challenged the prevailing belief in the immutability of the heavens.

(225) Hyperons have been detected in the remnants of supernova explosions, indicating their involvement in these cataclysmic events.

(226) James Spader's character Nick Vanzant in the film Supernova showcased his ability to handle complex and otherworldly storylines.

(227) The study of astrophysical phenomena, such as planetary nebulae and supernova remnants, can provide clues about the life cycles of stars.

(228) If she studies the dynamics of a supernova remnant nebula, she can learn about the high-energy processes that occur during stellar explosions.

(229) The life cycle of a star involves the revolve in a cycle from a protostar to a main sequence star, then to a red giant or supernova, and finally, a white dwarf or black hole.

(230) The absorption spectrum of the star was analyzed, and it revealed the presence of several heavy elements, which suggested that the star had undergone multiple supernova explosions in its past.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Supernova. They do not represent the opinions of TranslateEN.com.