So how much energy is required to do this? For this gargantuan task, I cheated and looked up the method used by Matt Springer over at Built on Facts to derive how much
We really only need out explosion to be as large as the largest energy needed (plus the energy needed to destroy the Sun, which is relatively negligible). This is because
Solar System Level - (5.709 Foe) The ability to destroy all the major bodies in the solar system, from the sun out to Neptune. Tons of TNT begin to no longer be adequate to measure this
The Mass of the crust is about 0.8% that of Earth and the average thickness is about 40km (of the radius of 6371km) so the new GBE of Earth without a crust would be: U_new = G (0.992M) 2 /
Here are some of the larger asteroids and comet nuclei known in the Solar System; 1.24 trillion tonnes is only about the mass of the asteroid 5535 Annefrank, or one of the smaller asteroids in
To clarify, this isn''t the Kinetic Energy needed to destroy every Star at once. This is the sum of the Gravitational Binding Energy of all stars in the known universe. So say the Sun''s GBE + Rigel''s
If a blast of energy from a spinning black hole hit our planet, it could rip apart the entire solar system. As dramatic as these disasters are, they''d still leave behind rocks, gas and
The purpose of this page made here is to explain where each AP and Tier are referred to and located at, as seen on the Attack Potency and Tiering System pages we have here respectively. This is so that newcomers and perhaps
If an explosion started on Earth and expanded to completely engulf the entire solar system, completely destroying it ( along with the Oort Cloud ), how many joules of energy
A plasma torch, with the thickness of milimiters, cuts an one inch steel plate in seconds. I believe that this theorical supernova plasma burst would evaporate the entire solar system. Just the
How much TNT would it take to destroy the sun? – To completely vaporise the Sun you need to overcome something called its gravitational binding energy. To do that would
[Request] How strong is one bomb in this scene? And, if possible, how much bombs would it take to destroy the whole solar system?
Either he can generate the kind of power necessary to destroy the solar system in one go, and then I don''t see why he shouldn''t be able to survive such an attack, or he would
This analysis discusses the energy required to overcome the gravitational cohesion of an Earth-sized planet. Energy Requirements To calculate the energy needed to destroy a planet, we must first operationalize the term "destroy".
To understand how much energy it would take to destroy a planet, we first need to explore the concept of gravitational binding energy. This is the amount of energy required to completely disperse a planet, or in other
So, if we could magically make matter appear and disappear, so if we could create and destroy mass, which we can''t do in the real universe because energy is conserved, energy is mass.
When Manley runs the particulars of Earth through this equation, he figures out that it''d take about 2.25 x 10 32 joules, or 225 million trillion trillion joules. For much larger planets such as Jupiter, you''re going to need about 2 x
If by "destroy" you mean "disrupt beyond gravity''s ability to reassemble", you''d need enough antimatter to create a release of energy large enough to overcome the gravitational binding
I''ve managed to calculate an upper limit: the gravitational binding energy of Earth is 2.5x10 32 J, so applying that much energy would be enough to rip apart the Earth and send the parts flying
According to Gizmodo, we need 2.25 × 10 32 joules of energy. Now 1 ton of TNT is approximately equal to 4.184 × 10 9 joules. (2.25 × 10 32 J) / (4.184 × 10 9 J/ton) ≈ 5.37 × 10 22 tons of TNT
How Much Energy Would It Take to Blow Earth to Smithereens? A mathematical formula shows what would be needed to reduce the planet to cosmic dust
How Much Energy Would It Take to Blow Earth to Smithereens? A mathematical formula shows what would be needed to reduce the planet to cosmic dust
They conclude that a supernova is indeed hundreds of times more powerful than the energy needed for Solar System destruction, despite some calculation errors. The
At the very least I''m trying to find out how much energy would be needed to vaporize a planet''s entire crust right down to the mantle. If e=mc^2 is enough to figure that out,
The goal being to remove Earth from its orbit and exit the solar system. By "perfect conditions" I mean that hypothetically when this does happen, no other planets or
Assuming the death star weighs as much as the moon, if it fired 2.24*10^32 J of energy, it would accelerate about 48 miles (78 km) away from Alderaan per second.
Solar System level: The star system known as the Solar System. Multi-Solar System level: Instead of doubling the value of Solar System level, the distance between two
The explosives would probably be an object larger than the Sun. And that''s just for Venus. Alternatively, some kind of radiation would have to be used to heat up all the objects
Using the formula for gravitational binding energy, we can calculate the amount of energy required to destroy Earth. With a mass of approximately 5.97 × 10²⁴ kg and a radius of 6,371 km, the energy required to completely disperse Earth is a mind-boggling 2.25 × 10³² J.
A: Destroying a planet would have catastrophic consequences not just for the planet itself, but for the entire solar system. If a planet like Jupiter were destroyed, its massive gravitational field would likely send debris hurtling towards other planets, potentially causing a cascade of destruction throughout the solar system.
If you want to destroy Earth, you have many options—at least when it comes to the extinction of humanity. Nuclear war, climate crisis or species extinction: over the course of human history, we have unfortunately found plenty of ways to destroy ourselves. But the planet doesn’t really care.
A: Pursuing superweapons that can destroy planets raises serious ethical and environmental concerns. The catastrophic consequences of such weapons would not just impact the target planet, but could also have ripple effects throughout the solar system, potentially causing irreparable harm to the delicate balance of the cosmos.
But the planet doesn’t really care. To actually destroy the planet, you would have to work a little harder. A collision with a large asteroid, for example, could make it uninhabitable and melt Earth’s crust, but even that wouldn’t destroy the Earth.
An apocalypse needs a lot or just a little energy—depending on what you compare it with. But what's really exciting is the math behind this ultimate destructive event. If you want to destroy Earth, you have many options—at least when it comes to the extinction of humanity.
