Temperatures on earth are kept stable due to the atmosphere. Other factors are the closeness to the sun, the tilt of the Earth, and several other things.
No, the moon and Earth have different temperatures. The moon has extreme temperature variations, ranging from very hot during the day to very cold at night, due to its lack of atmosphere to retain heat. Earth has a more stable temperature range due to its atmosphere and proximity to the sun.
The stratosphere is the layer of the atmosphere that is relatively calm and has stable temperatures. This layer is above the troposphere and contains the ozone layer, which helps trap heat in the atmosphere. Temperatures in the stratosphere increase with altitude due to the absorption of ultraviolet radiation by the ozone layer.
Protoearth was a molten and barren planet with high temperatures due to intense impacts from other celestial bodies. It lacked an atmosphere and water. Today's Earth is cooler, has a stable surface, rich in biodiversity with oceans, and a protective atmosphere.
Water can exist as a solid, liquid, and gas on Earth due to its varying temperatures and atmospheric conditions.
Temperatures decrease in the troposphere due to the Earth's surface heating the air above it; as altitude increases, the air becomes less dense and can hold less heat. In contrast, temperatures increase in the stratosphere because of the absorption of ultraviolet radiation by the ozone layer, which warms the air at higher altitudes. This temperature inversion creates a stable atmosphere in the stratosphere, contrasting with the more turbulent conditions of the troposphere.
Earth's temperatures are livable due to a combination of factors, including its distance from the sun, its atmosphere which helps regulate temperature, and the presence of water. These factors work together to create a stable climate that can support life as we know it.
due to the earth gravitation
No, the moon and Earth have different temperatures. The moon has extreme temperature variations, ranging from very hot during the day to very cold at night, due to its lack of atmosphere to retain heat. Earth has a more stable temperature range due to its atmosphere and proximity to the sun.
The constant average temperatures of Earth's land areas, oceans, and atmosphere are primarily due to the balance between incoming solar radiation and outgoing infrared radiation. The Earth's atmosphere plays a crucial role in this balance by trapping heat through the greenhouse effect, which helps maintain stable temperatures. Additionally, the oceans regulate temperatures by absorbing and redistributing heat, while land surfaces also influence local climates. Together, these factors create a relatively stable climate system that allows for consistent average temperatures across different regions.
The stratosphere is the layer of the atmosphere that is relatively calm and has stable temperatures. This layer is above the troposphere and contains the ozone layer, which helps trap heat in the atmosphere. Temperatures in the stratosphere increase with altitude due to the absorption of ultraviolet radiation by the ozone layer.
When Earth's orbit elongates due to factors like orbital eccentricity, temperatures can fluctuate but not solely due to this factor. Other factors such as solar radiation, greenhouse gas levels, and volcanic activity play a significant role in determining global temperatures.
Mainly due to differences in temperatures, and the rotation of the earth to a lesser extent.
If Mercury had the same mass as Earth, its temperatures would likely be higher due to the increased heat capacity. The thicker atmosphere created by the higher mass would help retain and distribute heat more effectively, resulting in more stable surface temperatures across the planet. However, the exact temperature differences would depend on factors like its proximity to the sun and specific atmospheric composition.
At a depth of 3500km, the Earth's interior transitions from solid to liquid due to high temperatures and pressures. The outer core of the Earth is composed of liquid iron and nickel, while the inner core is solid due to even higher pressures despite extreme temperatures.
Quartz is one of the most stable minerals on Earth's surface due to its resistance to weathering and chemical reactions. Other stable minerals include feldspar, mica, and olivine. These minerals are commonly found in igneous and metamorphic rocks that make up the Earth's crust.
Quartz is a mineral that is stable at Earth's surface due to its chemical composition and resistance to weathering processes.
Earth maintains a relatively stable temperature due to the greenhouse effect, where gases in the atmosphere trap heat from the sun. This helps regulate the planet's temperature by retaining some of the heat. Additionally, Earth's distance from the sun and its angle of tilt also play a role in preventing extreme hot or cold temperatures.