Примери за използване на Schwarzschild radius на Английски и техните преводи на Български
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The Schwarzschild radius.
So, now we know what a Schwarzschild radius is.
The Schwarzschild radius for the Sun is about two miles, 1/200,000th of its current width;
Where rs is the Schwarzschild radius.
The Schwarzschild radius can be calculated using the equation for escape speed.
The key here is to figure out what that Schwarzschild radius is.
And since the mass determines the Schwarzschild radius, there is actually only one thing I really need to know.
But fortunately there is a finite size that you can see, andthat's known as the Schwarzschild radius.
The observable universe's mass has a Schwarzschild radius of approximately 13.7 billion light-years.
I need to understand the mass of the object I'm claiming is a black hole, and what its Schwarzschild radius is.
Every object has a critical radius, called the Schwarzschild radius, at which its mass will form a black hole.
The diameter of a black hole depends on its mass butit is always double what we call the Schwarzschild radius.
If the sun were to shrink to a singularity point, the Schwarzschild radius would be 3 kilometers and the diameter would be 6.
The Schwarzschild radius is now known to be the radius of a black hole, but was not well understood at that time.
Any non-rotating andnon-charged mass that is smaller than its Schwarzschild radius forms a black hole.
Earth's Schwarzschild radius is just below nine mm(1/3 inch), and if it were to be compressed below that size, our planet would become a black hole.
The X-rays are sent off into space before the matter crosses the Schwarzschild radius and crashes into the singularity.
The Schwarzschild radius is now known to be the radius of the event horizon of a non-rotating black hole, but this was not well understood at that time.
For any object, there is a critical radius, called the Schwarzschild radius, at which its mass will form a black hole.
For photons, or objects with no mass,we can substitute c(the speed of light) for Vesc and find the Schwarzschild radius, R.
For an object with the mass of the Sun, the Schwarzschild radius is approximately 3 km, much smaller than the Sun's current radius of about 700,000 km.
Theoretically, any amount of matter will become a black hole if compressed into a space that fits within its corresponding Schwarzschild radius.
However, applying the formula for the Schwarzschild radius yields just about 41 light-seconds, making it consistent with the escape velocity being the speed of light.
The Newtonian gravitational field near a large, slowly rotating,nearly spherical body can be reasonably approximated using the Schwarzschild radius as follows.
If the sun was replaced with a black hole that had the same mass as the sun, the Schwarzschild radius would be 3 km(compared to the sun's radius of nearly 700,000 km).
For example, for a black hole of 10 Sun masses the above-mentioned rod breaks at a distance of 320 km, well outside the Schwarzschild radius of 30 km.
The radius of the event horizon is called the Schwarzschild radius, named after astronomer Karl Schwarzschild, whose work led to the theory of black holes.
For a supermassive black hole of 10,000 Sun masses it will break at a distance of 3200 km,well inside the Schwarzschild radius of 30,000 km.
This solution had a peculiar behaviour at what is now called the Schwarzschild radius, where it became singular, meaning that some of the terms in the Einstein equations became infinite.
So, if I were to compress the Earth down to the size of a sugar cube, it would become a black hole,because the size of a sugar cube is its Schwarzschild radius.