We know that in space there is no oxygen and we cannot breathe. Many people wonder what is the temperature in space. The temperature of space is a tricky subject because there are so many factors to consider in order to understand the true energies that exist.
However, we are going to try to tell you what the temperature in space is, how it is known and how important it is to know it.
temperature in space
In general, outer space is assumed to be empty and airless, which means that it has an average temperature of -270,45 °C. This temperature is known as the blackbody temperature or the Planck equilibrium temperature, and it is the coldest temperature attainable in the universe.
However, there are many hotter regions in space, such as the centers of galaxies, black holes, and stars, where temperatures can exceed 10°C. This is due to the release of a large amount of energy in the form of ultraviolet and infrared rays. Furthermore, these temperatures will vary depending on the distance from Earth, with temperatures on or near the Moon being slightly higher, reaching 000 °C in Eugene Shoemaker's environment.
Ultimately, the temperature in space varies greatly depending on location, from -270,45°C to 10°C or more. This makes the study of astronomy an extremely interesting discipline due to the infinity of variables that must be taken into account when analyzing astronomy, as well as other phenomena related to the universe.
Why is space so cold?
Space is a cold void. This is mainly due to the fact that there is very little matter and energy in space, and that hot objects have more surface area to radiate energy than smaller objects. As a result, objects in space lose heat faster than objects on Earth, so the environment cools faster.
Another way that space cools is through interstellar gas. These gases have a constant temperature, approximately between -265 °C and -270 °C, which is extremely low on Earth's temperature scale. In addition, these gases contain subatomic particles that interact with each other, spreading heat between different interstellar media. Therefore, the exchange of energy between space objects and interstellar gas affects the global temperature, making it very cold.
What is the temperature in outer space?
In outer space, the temperature is extremely cold. Depending on the distance from the sun to various parts of the universe, the temperature range can vary from -270°C to +270°C. If the distance from the sun is very great, the temperature can reach almost absolute 0°C, which means that there is no heat energy. This is called the vacuum of outer space and is one of the main features of outer space.
However, there are some places in the universe very close to the sun where the ambient temperature is much higher. For example, in the neighborhood of massive stars, such as red supergiant stars, the temperature can reach 3000°C; however, the average temperature in outer space is generally lower, below -100°C, which is extremely cold for human life to reproduce.
Where is the coldest place in the universe?
The coldest place in the universe is what we know as the cosmic microwave background. This radiation from interstellar space is the coldest light in the entire universe. This is the lowest temperature ever detected, measuring around -270,45 degrees Celsius.
On the other hand, there are some objects that, according to different measurements, remain cooler than the cosmic microwave background, such as the Boomerang Nebula region, some 5.000 light-years away, in the constellation Centaurus. The cloud has been identified as the coldest region in the known universe, reaching a temperature of -272,3 degrees Celsius.. In addition, there are neutron stars with an average temperature close to -265 degrees Celsius.
Importance of knowing the temperature in space
We have already seen that the temperature in space is not uniform, and knowing its variability is fundamental to understanding the physical processes that occur in it. Various phenomena, such as the formation of stars and galaxies, they largely depend on how thermal energy is distributed in different regions. For example, clouds of interstellar gas and dust that give rise to new stars experience changes in temperature that affect their collapse and evolution.
Additionally, the spacecraft, satellites, and equipment we send into space face extreme challenges due to temperature variations. Electronic components, solar panels and other systems must be designed to withstand both the intense cold from deep space as the heat generated by direct solar radiation. Understanding space temperature allows us to develop more robust and reliable technologies for exploration and communication in space.
Space temperature research also has implications for the search for life beyond Earth. When studying exoplanets, which are planets that orbit stars other than the Sun, temperature is a crucial factor in determining whether they could harbor liquid water on their surfaces.
How temperature influences astronomical phenomena
Temperature plays a key role in many astronomical phenomena. This is because all matter in the universe contains heat. Therefore, temperature affects the way gases, particles, and waves of energy behave. For example, Electromagnetic radiation travels through the interstellar medium at different speeds depending on its temperature. There are also various types of stars with different surface temperatures. Many atmospheric phenomena occur due to temperature differences between the Earth's crust and the atmosphere. For example, clouds form when warm air rises from the Earth's surface.
In interstellar space, extremely low temperatures lead to the formation of interstellar dust and molecular gas. Also, a nebula's temperature affects its appearance, such as its brightness, color, and shape. Finally, temperature is critical to the flow of energy in galaxies, including the presence of supernovae, black holes, massive stars, and star formation.
I hope that with this information you can learn more about the temperature in space and its importance.