How much energy do you need to destroy the moon?
To destroy the moon, you would need to provide at least 1.24×1029J of energy to exceed the Moon’s gravitational binding energy. (This provides a lower bound on the energy to “blow up” the moon.) A megaton of TNT releases 4.184 PJ of energy. Put this together, and you would need at least: 2.96×1013 megatons of TNT.
How much energy would 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 big of an explosion would it take to destroy the Earth?
This is equivalent to 10^13 gigatons of TNT. The total world nuclear arsenal is about 4 gigatons… so blowing the Earth up is out of the question.
How much energy would it take to destroy the universe?
Conclusion. Energy required to destroy the observable universe: Low end: 1.149×1078 Joules. High end: 7.11×1092 Joules.
How many nukes does it take to destroy the earth?
The current global population is 7.8 billion which results in 23.4 billion tonnes of TNT or 23,400,000 kt. The average yield of a nuclear weapon is 500 kt which means you would need 46,800 nuclear weapons to kill everybody.
What does it take to destroy a planet?
Most planets can exist for a long, long time, but they can’t last forever. Hungry stars and violent planetary neighbors can completely destroy a world, while impacts and excessive volcanism can render a habitable world sterile by stripping the planet of its water.
How much energy would it take to destroy a galaxy?
Our Sun, for reference, has a mass of 2*1030 kg, so he’d need the equivalent of 280 Suns to destroy an entire (small) galaxy.
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 much damage can 1 kg of TNT do?
Under controlled conditions one kilogram of TNT can destroy (or even obliterate) a small vehicle. The approximate radiant heat energy released during 3-phase, 600 V, 100 kA arcing fault in a 0.5 m × 0.5 m × 0.5 m (20 in × 20 in × 20 in) compartment within a 1-second period.
How strong is a blast of 1 kg of TNT?
A single kilogram of dynamite can yield overpressure effects measured at more than 1,200 kPa (174 psi) at 1 meter and 280 kPa (40.6 psi) at 2 meters. The blast wave expands in all directions unless reflected or channeled by a structure.