Yes it is! Just like the sun. Its Corona is very hot.
(from outer to center)crustmantleouter coreinner corethe mantle is the majority of the earth's capacity. the crust is the thin outer layer that supports life on earth.made up of mostly nickel and/or iron
The Earth's solid inner layer is surrounded by the hot molten metal of the outer core. This outer core is composed mostly of iron and nickel, and its high temperatures and pressure give it the ability to flow in a liquid state.
Yes, Jupiter is believed to have a dense core of rock and metal about the size of Earth. This core is thought to be surrounded by a thick layer of metallic hydrogen, followed by a gaseous outer layer.
Both white dwarfs and neutron stars match the description. Neutron stars are smaller, hotter, and denser.
An old, very dense, hot star that is cooling is called a white dwarf. These stars are the remnants of medium-sized stars that have exhausted their nuclear fuel and shed their outer layers. Over time, they gradually cool and fade, eventually becoming faint stellar remnants known as black dwarfs, though the universe is not old enough for any black dwarfs to exist yet. White dwarfs are primarily composed of electron-degenerate matter, which accounts for their high density.
very dense and hot
5500 Celsius
(from outer to center)crustmantleouter coreinner corethe mantle is the majority of the earth's capacity. the crust is the thin outer layer that supports life on earth.made up of mostly nickel and/or iron
hot liquid layer
Small intestine of sheep or goat.
the outer core
The outer core.
The Earth's solid inner layer is surrounded by the hot molten metal of the outer core. This outer core is composed mostly of iron and nickel, and its high temperatures and pressure give it the ability to flow in a liquid state.
Yes! Stars are made out of many gases that are extremely hot. But a sun can also have black spots on its surface which are cold.
the frog's only layer of moisture is found on their skin (outer layer), therefore, in a hot and windy day, they lose this layer therefore drying out and dying.
These are called white dwarf stars. They are the dense remnants (cores) of stars about the size of the Sun, which have used up all of their fusible elements and no longer maintain fusion in their cores. These stars still radiate energy because they are still hot, just not as hot as a functioning star.
Yes, Jupiter is believed to have a dense core of rock and metal about the size of Earth. This core is thought to be surrounded by a thick layer of metallic hydrogen, followed by a gaseous outer layer.