Venus in the hottest planet in our solar system. It has an average temperature of around 900 degrees Fahrenheit.
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
You might expect a planet to be hotter if it's nearer the Sun. This is true apart from Venus, which is the exception. Venus has a higher average surface temperature than Mercury. We believe this is because of the "greenhouse effect" of the atmosphere of Venus.
Without an atmosphere, a planet's temperature can vary widely depending on its distance from the sun and its surface properties. The lack of an atmosphere means that heat is not retained, so temperatures can be extreme, with highs during the day and lows at night. Overall, the temperature tends to be closer to the planet's actual temperature without the moderating effects of an atmosphere.
The distance of a planet from the Sun significantly influences its temperature and atmospheric pressure. Generally, planets closer to the Sun receive more solar radiation, leading to higher temperatures, while those farther away tend to be cooler. This temperature variation affects atmospheric pressure, as warmer air can hold more moisture and leads to higher pressure, while cooler air results in lower pressure. Consequently, the interplay between distance, temperature, and pressure shapes each planet's climate and atmospheric conditions.
The planet with an average surface temperature of 14.6°C is Earth.
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
which planet has a temperature of -180 to 400
You might expect a planet to be hotter if it's nearer the Sun. This is true apart from Venus, which is the exception. Venus has a higher average surface temperature than Mercury. We believe this is because of the "greenhouse effect" of the atmosphere of Venus.
Without an atmosphere, a planet's temperature can vary widely depending on its distance from the sun and its surface properties. The lack of an atmosphere means that heat is not retained, so temperatures can be extreme, with highs during the day and lows at night. Overall, the temperature tends to be closer to the planet's actual temperature without the moderating effects of an atmosphere.
This is impossible to answer for a planet with unknown conditions or characteristics.
The distance of a planet from the Sun significantly influences its temperature and atmospheric pressure. Generally, planets closer to the Sun receive more solar radiation, leading to higher temperatures, while those farther away tend to be cooler. This temperature variation affects atmospheric pressure, as warmer air can hold more moisture and leads to higher pressure, while cooler air results in lower pressure. Consequently, the interplay between distance, temperature, and pressure shapes each planet's climate and atmospheric conditions.
Latitude does influence temperature. The higher your latitude is, the cooler your climate. The inhabitants of our planet nearer to the equator feel more of the blazing sun than those in North and South Poles.
Sound and temperature are not connected.
The planet with an average surface temperature of 14.6°C is Earth.
If you increase the albedo, more solar radiation will be reflected back into space and so the temperature will be lowered.
Gravity, pressure, and temperature are all related in the context of a planet's atmosphere. Gravity determines the pressure of the atmosphere, with higher gravity leading to higher pressure. Temperature affects pressure as well, with increasing temperature leading to higher pressure due to the increase in kinetic energy of gas molecules. Overall, these factors work together to create the atmospheric conditions we experience on Earth and other celestial bodies.
the higher the temperature the higher the solubility and vice-versa.