All of the gas giants (Jupiter, Saturn, Uranus and Neptune) radiate more heat than they receive.
Although Mercury is the closest planet to the sun, it is only the second hottest planet after Venus. Venus gets hotter as the thick carbon Dioxide atmosphere holds the heat more effectively, while Mercury has no atmosphere
Infrared light delivers most of the heat from the sun to the Earth. This type of light has longer wavelengths than visible light and is able to penetrate the Earth's atmosphere more effectively, transferring its energy into heat when absorbed by surfaces on the Earth's surface.
A planet gets its force of gravity from its mass and the distance from its center. The more massive the planet, the stronger its gravitational pull will be. Gravity is a fundamental force of nature that attracts all objects with mass towards each other.
Jupiter does not absorb heat from the Sun. Instead, it reflects sunlight due to its thick atmosphere and cloud cover. Jupiter's atmosphere interacts with sunlight, leading to the planet's distinct appearance and weather patterns.
The ultraviolet light from the Sun heats the Earth, like in a greenhouse. The more production of carbon dioxide, from burning coal and oil, the more rising infra-red heat gets trapped in the atmosphere. In a greenhouse, the heat gets trapped inside because of the layers of glass.
The more carbon dioxide the hotter the planet gets. The hotter the planet gets the more wild fires happen. For every fire that occurs more carbon dioxide is released.
The planet gets warmer.
Planets typically do not produce more heat than stars. Mercury gets really hot BECAUSE of the sun.
Mercury is the closest planet to the sun, but is only the second hottest planet after Venus. Venus gets hotter as the thick carbon dioxide atmosphere holds the heat more effectively, while Mercury has no atmosphere to hold the heat.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
The further a planet is from the sun, the less light and heat radiation it gets from the sun leaving it a cooler planet. However, a planet with a gaseous atmosphere is less likely to radiate away the planets heat so it may retain more of the solar heat.
Although Mercury is the closest planet to the sun, it is only the second hottest planet after Venus. Venus gets hotter as the thick carbon Dioxide atmosphere holds the heat more effectively, while Mercury has no atmosphere.
Infrared light delivers most of the heat from the sun to the Earth. This type of light has longer wavelengths than visible light and is able to penetrate the Earth's atmosphere more effectively, transferring its energy into heat when absorbed by surfaces on the Earth's surface.
is to heaten the air and it gets more warmer
Although Mercury is the closest planet to the sun, it is only the second hottest planet after Venus. Venus gets hotter as the thick carbon Dioxide atmosphere holds the heat more effectively, while Mercury has no atmosphere
Jupiter gives off more heat than it receives from the sun, with its internal heat source generating about twice as much energy as it receives from the sun. This excess heat contributes to Jupiter's high internal temperature and its strong magnetic field.
A planet gets its force of gravity from its mass and the distance from its center. The more massive the planet, the stronger its gravitational pull will be. Gravity is a fundamental force of nature that attracts all objects with mass towards each other.