The Schwarzschild radius, also known as the gravitational radius, is a radius associated with a mass and is the radius at which the escape speed of an object would equal the speed of light. To calculate the Schwarzschild radius of a black hole, you would need to know its mass, which can be determined by observing the gravitational forces it exerts on nearby stars and gas clouds, then calculating the total amount of mass that could be associated with that force.
Once the mass is known, the Schwarzschild radius can be determined by using the formula,.
where G is the Gravitational Constant, M is the mass of the black hole, and c is the speed of light.
What is the black hole formula?
The black hole formula is a mathematical expression that describes the properties of a black hole. It was first derived by physicist Stephen Hawking in 1973 and is also known as Hawking’s equation or Hawking’s mass-energy formula.
The formula translates the physical properties of a black hole into measurable quantities like its entropy and mass. It is expressed as E = mc2 + k(A/4π), where E is the total energy of the black hole, m is the mass of the black hole, c is the speed of light, k is the gravitational constant, and A is the surface area of the event horizon of the black hole.
The formula is important because it provides insight into the physics of black holes and can help us understand the nature of gravity in regions of space with strong gravitational fields.
How big is a 1 solar mass black hole?
A 1 solar mass black hole (also known as a Schwarzschild black hole) is believed to be no bigger than a few kilometers in diameter, otherwise known as its Schwarzschild radius. This is the radius of a sphere such that, if all the mass of a body were to be compressed within that sphere, it would form a black hole – in this case, a 1 solar mass black hole.
According to Einstein’s General Theory of Relativity, a black hole is a mass that has been compressed within its Schwarzschild radius and has become so dense that nothing, including light, can escape its gravity.
Therefore, the 1 solar mass black hole is extremely small given its mass.
Can you create a black hole with 1100 DB?
No, it is not possible to create a black hole using 1100 DB. Black holes are the result of extreme gravitational collapse, where a massive star has collapsed into a point of infinite density. The amount of mass needed to create a black hole is much greater than what could be provided with 1100 DB.
For example, according to Einstein’s Theory of Relativity, a black hole would need a mass equal to 25 million suns to create its own event horizon, which is the boundary from which light cannot escape.
Since it is not possible to achieve such a large mass with 1100 DB, creating a black hole is impossible.
What is the minimum mass of a black hole in solar masses?
The minimum mass of a black hole can vary depending on the type of black hole that is being referenced. However, the most commonly accepted range for the minimum mass of a black hole is between 2. 5 – 5 solar masses.
This range is based off of the observational evidence of the observable properties of stellar mass black holes. Typically, these black holes are formed from exploding large stars with masses of 8-25 solar masses.
Additionally, there is evidence of intermediate mass black holes (IMBHs). These are usually between 100-10,000 solar masses. However, the evidence for these larger black holes is still inconclusive.
Finally, the minimum mass for supermassive black holes is not very well understood. These black holes typically range in size from a few thousand solar masses to billions of solar masses. This mass range is quite large, and it is difficult to pinpoint the exact minimum mass.
Is Phoenix a bigger than TON 618?
No, TON 618 is larger than Phoenix. Phoenix is a small city in Arizona located in the United States, containing a population of 1,680,992 people, according to the 2019 US Census. In contrast, TON 618 is an unincorporated rural community in Arizona located in the San Carlos Apache Indian Reservation, containing a population of 8,652 people, according to the 2010 US Census.
Phoenix has a total area of 517 square miles, while TON 618 has a total area of 1,922 square miles. Therefore, TON 618 is clearly larger than Phoenix, both in terms of population size and total area.
Who is the biggest galaxy in the universe?
The biggest known galaxy in the universe is IC 1101, located in the center of the Abell 2029 galaxy cluster. This supergiant elliptical galaxy is 5,500 times more massive than the Milky Way, containing more than one trillion stars.
IC 1101 has a diameter of over 6 million light-years, making it one of the most massive, largest and brightest galaxies in the known universe. Studies have indicated that this galaxy has been slowly growing due to the continuous accumulation of stars and a large number of smaller galaxies over the past billions of years.
What is the radius of a black hole which formed from the 5 solar masses core of a supernova?
The radius of a black hole which forms from the 5 solar mass core of a supernova depends on the density of the core and the rotation rate of the star prior to its collapse. Generally, if the star is rotating slowly, the resulting black hole will have a radius of roughly 5-6 km, while if it is rapidly rotating, the radius can be much larger, up to 20-30 km.
In some cases, the core of the star can be so dense that the resulting black hole will be much smaller, with a radius of just 1-3 km. Ultimately, it is impossible to know the exact radius of a black hole which formed from the 5 solar mass core of a supernova without knowing the exact properties of the star prior to its collapse.
Is a black hole greater than 3 solar masses?
Yes, black holes can be greater than 3 solar masses. Black holes can range in size from around 5-10 solar masses to millions or billions of solar masses, depending on their origin. A black hole is created when a massive star, usually at least three times the mass of our Sun, collapses under its own gravity.
The collapsing star compresses into an extremely dense ball containing up to three times the mass of the Sun, known as the Schwarzschild radius, which forms a black hole. The Schwarzschild radius is the point at which the escape velocity from the object exceeds the speed of light, and so no light, or information, is able to escape from within.
As the star continues to collapse and becomes increasingly dense, its mass can actually increase and can reach above 3 solar masses. It’s important to note, however, that the typical stellar-mass black hole has a mass that ranges from about 5 to 10 solar masses, and the supermassive black holes found in the cores of galaxies can contain millions or billions of solar masses.
What if a 1 cm black hole appeared on Earth?
If a 1 cm black hole were to appear on Earth, the consequences would likely be catastrophic. Black holes are objects so dense that not even light can escape their gravitational pull. On Earth, the effects of this gravitational pull would be felt immediately and could include an increase in gravity felt on the Earth’s surface, a decrease in Earth’s rotation, an increase in the tides, and an increase in Earth’s temperature.
The end result would be earthquakes and other seismic activity, tsunamis, and extreme weather. Additionally, the black hole would draw in any matter that ventured too close, including matter from the Earth’s surface and atmosphere.
This would decrease the total mass of the Earth and could potentially cause Earth to become unstable and break apart. Given the devastating consequences of a tiny black hole existing on Earth, it’s safe to assume that it would be disastrous.
How much starting solar mass do you need to make a black hole?
The precise amount of starting solar mass required to create a black hole depends on a few factors, including the size and structure of the object from which it is formed. Generally, in order for a star to collapse and form a black hole, it must have at least four or five times the mass of the Sun.
Anything less than this amount will ultimately form a neutron star or a white dwarf. With more mass, though, the pressure and gravity become increasingly stronger, and the star collapses in on itself to form a black hole.
For example, the mass of a small black hole can range between five and ten solar masses, while the mass of the supermassive black hole at the center of the Milky Way is estimated to be around four million solar masses.
How big is TON 618 singularity?
TON 618 Singularity is an open-source platform for blockchain-based applications and protocols. It is based on the TON Network, which is an advanced Ethereum-based blockchain that was created to facilitate greater scalability, privacy and interoperability.
TON 618 Singularity was created to provide the same amount of speed and scalability as TON Network, while introducing new features such as smart contracts, decentralized application infrastructure, and the ability to interact with existing centralized web services.
The actual size of TON 618 singularity really depends on the projects and applications that are built using its framework. In terms of the hardware and software requirements, since TON 618 Singularity is an open-source platform, the hardware and software requirements are project-specific and can vary greatly depending on the specific blockchain application.
In general, however, TON 618 Singularity is resource-intensive and requires high-end hardware and software components to effectively run the platform.
How big is S5 0014 81?
The S5 0014 81 is a Samsung smartphone, and it measures 5. 9 inches (14. 95 cm) in height, 2. 7 inches (6. 86 cm) in width, and 0. 3 inches (0. 8 cm) in depth. It weighs 5. 5 ounces (156 g). The smartphone includes a 5.
1-inch (12. 95 cm) Super AMOLED capacitive touchscreen display with a resolution of 1080 x 1920 pixels at a 16:9 ratio, a 13-megapixel rear camera, a 5-megapixel front camera, and a 3,000 mAh Li-Ion battery.
It runs on the Android 5. 1. 1 operating system and is powered by a Qualcomm MSM8992 Snapdragon 808 processor.
Can TON 618 swallow our galaxy?
No, TON 618 cannot swallow our galaxy. TON 618 is a hypothetical black hole that would be roughly one hundred billion times the mass of our sun, located at the center of a galaxy known as Messier 81, approximately twelve million light-years away.
This is a very large black hole, but it is still not nearly massive enough to swallow an entire galaxy. Our galaxy is estimated to contain more than one trillion times the mass of the sun and the gravitational forces of TON 618 would not be powerful enough to overcome those forces.
What is a black hole with mass 20x that of the Sun called?
A black hole with a mass 20x that of the Sun is referred to as a “stellar-mass black hole”. This type of black hole forms when the core of a massive star collapses in on itself, exceeding the “Chandrasekhar limit” of about 1.
4 solar masses. A stellar-mass black hole is considerably smaller than a supermassive black hole, which is estimated to have masses as large as billions of solar masses. Astronomers have detected stellar-mass black holes by observing x-rays emitted when gas and dust are pulled into the gravitational field of the black hole.
Thanks to modern innovations in telescopes and technology, astronomers have been able to detect several stellar-mass black holes nearby, including one located only 1000 light-years from Earth.