because your mum love it when i give it to here
The gas needed to establish before the Earth's atmosphere could absorb and maintain heat was carbon dioxide. This gas, along with other greenhouse gases like methane and water vapor, trap heat in the atmosphere and help regulate the Earth's temperature.
The main gases in Earth's atmosphere that help keep surface temperatures warm enough for life are carbon dioxide, water vapor, and methane. These gases trap heat from the sun in a process known as the greenhouse effect, which helps maintain the planet's temperature within a range suitable for life.
The atmosphere helps to maintain the Earth's temperature by trapping heat from the sun through a natural process called the greenhouse effect. This process involves gases in the atmosphere, such as carbon dioxide and water vapor, absorbing and re-radiating heat, which warms the planet. Without the atmosphere acting as a natural insulator, the Earth would be too cold to support life.
water cycle
The blanket of protective gases that covers the Earth's surface is the atmosphere. It is composed of various gases such as nitrogen, oxygen, carbon dioxide, and others, which help regulate the planet's temperature and protect it from harmful solar radiation.
The gas needed to establish before the Earth's atmosphere could absorb and maintain heat was carbon dioxide. This gas, along with other greenhouse gases like methane and water vapor, trap heat in the atmosphere and help regulate the Earth's temperature.
The main gases in Earth's atmosphere that help keep surface temperatures warm enough for life are carbon dioxide, water vapor, and methane. These gases trap heat from the sun in a process known as the greenhouse effect, which helps maintain the planet's temperature within a range suitable for life.
The atmosphere helps to maintain the Earth's temperature by trapping heat from the sun through a natural process called the greenhouse effect. This process involves gases in the atmosphere, such as carbon dioxide and water vapor, absorbing and re-radiating heat, which warms the planet. Without the atmosphere acting as a natural insulator, the Earth would be too cold to support life.
The blanket of protective gases that covers the Earth's surface is the atmosphere. It is composed of various gases such as nitrogen, oxygen, carbon dioxide, and others, which help regulate the planet's temperature and protect it from harmful solar radiation.
water cycle
Convection cells in Earth's atmosphere move heat from the equator towards the poles and then back towards the equator. These cells help redistribute heat and maintain global temperature equilibrium.
Scientists look for certain conditions when determining if a planet is habitable. This includes the presence of liquid water, a suitable atmosphere, a stable climate, and the right distance from its star to maintain a temperature hospitable to life. Observations from telescopes, spacecraft, and simulations help in assessing a planet's potential habitability.
The thin layer of air that protects the Earth's surface is known as the atmosphere. It is composed of different gases, such as nitrogen, oxygen, and carbon dioxide, that help regulate temperature, protect from harmful radiation, and maintain the conditions necessary for life to exist on Earth.
Hurricanes help maintain thermodynamic balance in the atmosphere. Along with other phenomena hurricanes help bring heat out of the tropics and into the higher latitudes.
The Earth's protective shield is primarily formed by gases like oxygen (O2) and ozone (O3) in the atmosphere. These gases help absorb and block harmful ultraviolet radiation from the sun, protecting life on Earth from its damaging effects. Additionally, nitrogen (N2) in the atmosphere helps maintain a stable balance of gases that contribute to Earth's protective shield.
The Earth's atmosphere provides essential elements such as oxygen for respiration, absorbs harmful radiation from the sun, regulates temperature through the greenhouse effect, and shields the planet from harmful space debris. These factors collectively create a habitable environment that sustains and protects life on Earth.
We humans evolved here on Earth, in Earthlike conditions. W're pretty adaptable, though, so we could probably survive on a bigger planet with somewhat heavier gravity (perhaps up to 1.5gs!) or a smaller planet with less. But too little gravity and it wouldn't be enough to retain an atmosphere....