Its A gas giant planet. -Pets Jaques
A planet with a deep and massive atmosphere is typically referred to as a gas giant. Gas giants are composed mainly of elements such as hydrogen and helium and have thick atmospheres that can extend for thousands of kilometers. Jupiter and Saturn are examples of gas giants in our solar system.
Venus has a thick, cloudy atmosphere that extends about 600 miles deep. The clouds are composed of sulfuric acid droplets and cover the entire planet, making it difficult to see its surface from space.
Many planets have an atmosphere that is poisonous, at least for us. All the gas giants, for a start. Mercury has almost no atmosphere. This would not exactly be poisonous, but it isn't exactly health, either... You would still need to keep your spacesuit on, if you venture outside the ship. Venus is also toxic for us - and, it is extremely hot. Mars' atmosphere isn't fit for humans, either.
The planet GJ1214B, is the only planet know to date that has the most water on it. The planet is nearly three times as large as Earth and made almost entirely of water, forming a global ocean more than 15,000km deep. Astronomers detected the alien world as it passed in front of its sun, a red dwarf star 40 light years away in a constellation called Ophiuchus, after the Greek for "snake holder".
Our atmosphere helps keep our planet insulated. It helps to trap heat on the surface instead of allowing it to be completely reflected back into space.
A "Gas Giant" planet.
That is commonly called a gas giant.
A planet with a deep and massive atmosphere is typically referred to as a gas giant. Gas giants are composed mainly of elements such as hydrogen and helium and have thick atmospheres that can extend for thousands of kilometers. Jupiter and Saturn are examples of gas giants in our solar system.
A large planet with a deep, massive atmosphere is typically referred to as a "gas giant." Gas giants, such as Jupiter and Saturn in our solar system, are characterized by their thick atmospheres composed primarily of hydrogen and helium, with no solid surface. Their immense size and gravitational pull allow them to retain vast amounts of gas, leading to their distinctive features like storms and bands of clouds.
The Gas Giants have a deep gas atmosphere and earth have a not so deep atmosphere
Venus has a thick, cloudy atmosphere that extends about 600 miles deep. The clouds are composed of sulfuric acid droplets and cover the entire planet, making it difficult to see its surface from space.
Many planets have an atmosphere that is poisonous, at least for us. All the gas giants, for a start. Mercury has almost no atmosphere. This would not exactly be poisonous, but it isn't exactly health, either... You would still need to keep your spacesuit on, if you venture outside the ship. Venus is also toxic for us - and, it is extremely hot. Mars' atmosphere isn't fit for humans, either.
The planet most made of atmosphere is Jupiter. It is a gas giant primarily composed of hydrogen and helium, with a thick atmosphere that extends deep into the planet. Unlike terrestrial planets, Jupiter lacks a solid surface and its atmosphere is characterized by intense storms and winds, including the famous Great Red Spot.
Neptune, the eighth planet from the Sun, was named after the Roman god of the sea, reflecting its deep blue color and mysterious nature. The name was suggested by the astronomer Johann Gottlieb Galle after the planet's discovery in 1846. The association with water and the sea symbolizes the planet's vast, uncharted atmosphere and the unknown aspects of its character.
The planet has a deep, dense atmosphere of hydrogen and helium. Below the upper cloud layers, the Sun would not be visible.
Pulsar planet.
To explore the deep atmosphere of a giant planet like Jupiter, instruments capable of detecting and analyzing gas composition, temperature, and pressure are essential. These could include sensors for measuring magnetic fields, spectroscopy devices to identify chemical elements, and probes to collect data from deep within the atmosphere. Additionally, designing instruments that can withstand high temperatures and pressures unique to these environments is crucial for successful exploration.