How Much Energy Does It Take To Destroy A Galaxy?

How many joules does it take to destroy the universe?

To blow our solar system need 136448.3747 Tenatons.

To destroy our Galaxy it takes 10 ^ 61 Joules.

There will meant that the minimum amount of energy to destroy the Sun is about 3,000,000,000 times more potent than the minimum energy to destroy Earth..

Which planet blew up?

What happened to Pluto? Did it blow up, or go hurtling out of its orbit? Pluto is still very much a part of our Solar System, it’s just no longer considered a planet. In 2006, the International Astronomical Union created a new category for classifying bodies in space: the dwarf planet.

What happens if you make a sound louder than 1100 DB?

Apparently, a sound of 1,100 decibels would create so much energy, it would act as a immensely high quantity of mass. This would, in turn, create enough gravity to form an extremely large black hole! Larger, in fact, than our observable universe.

How much energy does it take to destroy a planet?

Easy! When 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 such as Jupiter, you’re going to need about 2 x 1036 joules, which means 2 trillion trillion trillion joules of energy.

How much energy would it take to destroy the sun?

To “destroy” the Sun, blow it apart Death Star style, we’d need to overcome it’s gravitational binding energy. That’s 6.87×1041 J. To do that we’d have to fire the Earth at the Sun at 9/10ths the speed of light.

How much energy is in the galaxy?

Our sun produces more energy every second than 1 billion major cities would produce in one year. Our galaxy produces 20 billion times more. In numbers, the energy output of our galaxy is 4×10^58 watt-second every second. The estimated output of the observable universe is 4X10^69 watt-second.

How do you destroy energy?

The law of conservation of energy states that energy can neither be created nor destroyed but only changed from one form to another. If you what you mean by destroying is to convert some tangible sources of energy into heat and sound, then it is possible. Otherwise, energy cannot be destroyed.

How much energy is in the universe?

In the case of a universe that is approximately uniform in space, one can show that this negative gravitational energy exactly cancels the positive energy represented by the matter. So the total energy of the universe is zero.”

How many galaxies are there?

100 billion galaxiesAll in all, Hubble reveals an estimated 100 billion galaxies in the universe or so, but this number is likely to increase to about 200 billion as telescope technology in space improves, Livio told

How much TNT is needed to destroy the earth?

It only takes about 7.1% of this energy to change Ceres’ orbit from a circular one to one that intercepts the Earth. That’s 4*10^27 Joules or 9.5*10^17 tons TNT.

How much force does it take to destroy a building?

Small Building Level – (0.005 tons) The capacity to completely destroy an average 4 window house or building of similar size in one attack upwards to communal buildings with greater than 5 floors. Requires explosive levels of strength or power.

How fast is our galaxy spinning?

130 miles per secondThe Milky Way, an average spiral galaxy, spins at a speed of 130 miles per second (210 km/sec) in our Sun’s neighborhood.

How many suns exist?

For many years scientists have studied our own solar system. But until the last few years, we knew of no other solar systems. This may seem surprising, as the Sun is one of about 200 billion stars (or perhaps more) just in the Milky Way galaxy alone.

Is it possible to destroy a star?

There is only one thing that can destroy a star and that’s a black hole. Black holes themselves are the only objects more powerful than a star, both in terms of gravitational pull and ability to withstand punishment from other objects.

Is it possible to destroy a planet?

With a pure antimatter bomb, the Death Star wouldn’t have to supply all the energy needed to blow Alderaan to smithereens—only half (about 1.24-trillion tons). … So, it’s perfectly reasonably that a tiny amount of matter (or, in this case, antimatter) could destroy an entire planet.