yes, hydrogen can be found as a solid liquid and a gas within Jupiter
Good question. Jupiter is primarily made of elements that we consider gasses, like Hydrogen and Helium. However, the pressures deep within Jupiter's core are likely to have compressed it into something we cannot duplicate on Earth; liquid metallic hydrogen. We're not certain of this, of course, because we can only see the outer layers.
Jupiter is a gas giant, so it doesn't have a solid surface like Earth does. Instead, much of it is composed of atmospheric gases (mainly hydrogen and helium). Deep within the atmosphere, there is liquid hydrogen gas, and it is thought that the centre of the planet is composed of a solid core of rock that's around the same size as Earth. If there is a solid surface the gravity is so strong you would likely have difficulty moving and it would be very cold.
Jupiter made of: -89.8 Hydrogen (H2O) -10.2 Helium (He) -0.3 Methane (CH4) -0.026 Ammonia (NH3) -0.003 Hydrogen deuteride (HD) -0.00006 Ethane (C2H6) -0.00004 Water (H2O)
Jupiter has no surface it is a gas planet, if you wanted to land a plane on Jupiter it would be like trying to land a plane on a cloud.In addition:Jupiter has a liquid core.that cosists of liquid metallic hydrogen
Jupiter's appearance is a tapestry of beautiful colors and atmospheric features. Most visible clouds are composed of ammonia. Water exists deep below and can sometimes be seen through clear spots in the clouds. The planet's 'stripes' are dark belts and light zones created by strong east-west winds in Jupiter's upper atmosphere. Within these belts and zones are storm systems that have raged for years. The Great Red Spot, a giant spinning storm, has been observed for more than 300 years. The composition of Jupiter's atmosphere is similar to that of the Sun - mostly hydrogen and helium. Deep in the atmosphere, the pressure and temperature increase, compressing the hydrogen gas into a liquid. At depths about a third of the way down, the hydrogen becomes metallic and electrically conducting. In this metallic layer, Jupiter's powerful magnetic field is generated by electrical currents driven by Jupiter's fast rotation. At the center, the immense pressure may support a solid core of ice-rock about the size of Earth
Jupiter and Saturn are mostly hydrogen and helium, while Uranus and Neptune have rocky cores and an outer mantle containing a hot slush of water, ammonia, and methane. Most of the hydrogen on Jupiter and Saturn is compressed into liquid and solid forms, deep within their dense atmospheres. This is in spite of the very high temperatures near their tiny rocky cores.
Good question. Jupiter is primarily made of elements that we consider gasses, like Hydrogen and Helium. However, the pressures deep within Jupiter's core are likely to have compressed it into something we cannot duplicate on Earth; liquid metallic hydrogen. We're not certain of this, of course, because we can only see the outer layers.
Jupiter is a gas giant, so it doesn't have a solid surface like Earth does. Instead, much of it is composed of atmospheric gases (mainly hydrogen and helium). Deep within the atmosphere, there is liquid hydrogen gas, and it is thought that the centre of the planet is composed of a solid core of rock that's around the same size as Earth. If there is a solid surface the gravity is so strong you would likely have difficulty moving and it would be very cold.
Jupiter made of: -89.8 Hydrogen (H2O) -10.2 Helium (He) -0.3 Methane (CH4) -0.026 Ammonia (NH3) -0.003 Hydrogen deuteride (HD) -0.00006 Ethane (C2H6) -0.00004 Water (H2O)
Jupiter has no surface it is a gas planet, if you wanted to land a plane on Jupiter it would be like trying to land a plane on a cloud.In addition:Jupiter has a liquid core.that cosists of liquid metallic hydrogen
yes, the planet Neptune includes water in all the gases on the planet, like methane, ammonia, helium and hydrogen.
Jupiter's appearance is a tapestry of beautiful colors and atmospheric features. Most visible clouds are composed of ammonia. Water exists deep below and can sometimes be seen through clear spots in the clouds. The planet's 'stripes' are dark belts and light zones created by strong east-west winds in Jupiter's upper atmosphere. Within these belts and zones are storm systems that have raged for years. The Great Red Spot, a giant spinning storm, has been observed for more than 300 years. The composition of Jupiter's atmosphere is similar to that of the Sun - mostly hydrogen and helium. Deep in the atmosphere, the pressure and temperature increase, compressing the hydrogen gas into a liquid. At depths about a third of the way down, the hydrogen becomes metallic and electrically conducting. In this metallic layer, Jupiter's powerful magnetic field is generated by electrical currents driven by Jupiter's fast rotation. At the center, the immense pressure may support a solid core of ice-rock about the size of Earth
Source: wikipedia. Saturn's interior is probably composed of a core of iron, nickel and rock (silicon and oxygen compounds), surrounded by a deep layer of metallic hydrogen, an intermediate layer of liquid hydrogen and liquid helium and an outer gaseous layer.[17] Electrical current within the metallic hydrogen layer is thought to give rise to Saturn's planetary magnetic field, which is slightly weaker than Earth's and around one-twentieth the strength of Jupiter's. I don't know what it is MOSTLY made of but that's what its made of generally.
You can use liquid H2 as fuel. NASA has been doing it since the 1960's. However, the handling and storage of liquid hydrogen is challenging, and may not be within the capability of the average person to safely manage in a personal vehicle. Liquid hydrogen could be a fuel of choice for professionally managed public transit such as busses and trains.
Inside the gas giants of our solar system hydrogen and helium and other gases are liquids and solids not because of cold temperatures but because of the monumental pressure within the planet.
Covalent bonds exists between atoms within a molecule. And liquids can consist of such molecules. However, covalent bonds are not a type of intermolecular bond (bonds such as van der Waals bonds, hydrogen bonds, etc.). As such, they do not define the bonds present between molecules in liquids.
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