How many joules needed to destroy earth
WebNamibia has a minimum energy requirement of 5,400 Joules (3,982 foot pounds) for hunting buffalo, elephant, and rhino. Your run of the mill 300gr and 405gr .45-70 loads manufactured by Remington and Winchester push those bullets at 1,880 fps and 1,330 fps for muzzle energies of 2,355 fpe and 1,590 fpe respectively. WebDepends on what you mean by "destroy", and what sort of explosion. Something around 10^59 joules should do the job. Maybe as little as 10^57 J, if the explosion was carefully …
How many joules needed to destroy earth
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Web30 aug. 2012 · A beefy one-megaton nuclear bomb, like the modern B83 possessed by the United States, yields about 4 to the 10 15 joules. To obliterate Earth (though surface life would almost entirely die out... Web20 uur geleden · Fill in the blank. Cl O. Of 114 identified elements—90 occurring naturally on Earth—most (67 ... of protons in the element. c) Cr2+ is 4d4. The most common of these elements are sodium and potassium. An adult human needs around ... Write the formulas for the following: 1. 11. 10. How much energy in Joules is required to break a single HF ...
Webfun statistics projects for high school students WebEnergy needed to destroy it (located at edge of observable universe) from center-originating omni-directional explosion, from center of universe = GBE x 4(π)(A/R) 2 ...
Web12 sep. 2013 · To vaporize that boiling body, it needs an additional 127 million Joules. This all brings the grand total to 142 million Joules —a bit more than a Pacific Rim Jaeger … Web12 jan. 2016 · For much larger planets such as Jupiter, you're going to need about 2 x 10 36 joules, which means 2 trillion trillion trillion joules of energy. But the story doesn't end …
WebWhen Manley runs the particulars of Earth through this equation, he figures out that it’d take about 2.25 x 1032 joules, or 225 million trillion trillion joules. For much larger planets …
Web13 nov. 2024 · One joule is the amount of work done when a force of 1 newton acts over a distance of 1 m; thus 1 J = 1 N-m. One newton is the amount of force required to accelerate a 1 - kg mass by 1 meter per second in one second - 1 m sec –2, so the basic dimensions of the joule are kg m 2 s –2. st luke\u0027s church glenrothesWeb2 jun. 2024 · The gravitational binding energy of the Earth is 2 ⋅ 10 32 J. Minor detail. It will turn out 3 orders of magnitude isn't much in this problem! Now an average arm span is … st luke\u0027s church goodhue mnhttp://bricnews.github.io/2016/01/08/destroy-the-earth-needed-a-one-time-use-how-much-energy.html st luke\u0027s church gas street birminghamWebFirst, we need to convert km/h to m/s, which gives us 27 / 3.6 = 7.5 m/s. Then we apply the first equation since we know the deformation distance, which is 75 cm = 0.75 meters. Replacing in the formula we get F avg = … st luke\u0027s church glasgowWebNew 2: According to Wikipedia, the Earth receives 174 petawatts at the upper atmosphere, which is 1.74 × 10 17 W. To gather enough energy to blow the planet apart, one would … st luke\u0027s church goostreyWeb23 mrt. 2024 · The total amount of rock destroyed by the impact was around 5,000,000 m^3. Using these figures, we can get a j/cc amount easily. 5,000,000 m^3 = … st luke\u0027s church great colmore streetWeb29 mrt. 2024 · Although these terms are often understood and used colloquially, for these purposes, the prevailing definition of being planetary isn't necessarily being able to destroy a planet, but being able to output approximately 2.25 x 10^32 joules -- the energy it would take to destroy Earth beyond its gravitational binding energy. st luke\u0027s church germantown