Objects in space experience extreme temperatures in space becuase space is a vacuum.
No because the temperatures in space are extreme because there is no gravity in space.
It is called Negative Space.
Objects float in space because there is no gravity to pull the objects down. While on earth there is gravity so it pulls the objects to the ground.
No, a physicist studies motion, energy and similar things. An astronomer studies objects in space, though not necessarily the physics of those objects. People who study the physics of objects in space are called astrophysicists.
Long term exposure to debris from man made objects as well as natural elements was a major concern. Another issue was maintaining correct temperatures and air pressure for human survival.
In space, you experience microgravity, which means you feel weightless. Without gravity, you float around and objects don't fall to the ground. The lack of air and extreme temperatures can also affect how your body functions.
No because the temperatures in space are extreme because there is no gravity in space.
Yes.
In space, objects react differently than on Earth due to the absence of gravity. Objects will float and continue moving unless acted upon by another force. Additionally, extreme temperatures can affect how materials behave in space.
Space has extreme temperatures due to the fact that there is no gravity. Sometimes, temperatures are extremely high, like in the thousands. Other times, temperatures could be thousands of degrees below zero.~HO
Space is technically a vacuum, meaning it doesn't have a temperature. However, objects in direct sunlight can reach extreme temperatures, while objects in shaded areas can become very cold, due to the absence of an atmosphere to distribute heat.
Objects in space experience extreme temperature changes primarily due to the lack of an atmosphere to retain heat, resulting in significant temperature fluctuations between sunlight and shadow. In direct sunlight, temperatures can soar to hundreds of degrees Celsius, while in the shade, they can plummet to near absolute zero. Additionally, the vacuum of space prevents heat transfer through convection and conduction, leaving radiation as the sole means of heat exchange. This stark contrast is particularly evident on celestial bodies with little to no atmosphere, like the Moon or asteroids.
Microgravity: Space is a microgravity environment where objects seem weightless, creating challenges for things like eating, sleeping, and movement. Radiation: Space is filled with higher levels of harmful radiation compared to Earth, exposing astronauts to increased risk of health issues like cancer. Extreme temperatures: In space, temperatures can vary dramatically, with extreme cold in shade and extreme heat in direct sunlight, requiring special equipment for thermal regulation.
Lack of air, radiation, extreme temperatures.
A person without a spacesuit in space will experience rapid decompression, causing the fluids in their body to boil, leading to swelling and potential unconsciousness within seconds. Without protection, they would be exposed to the vacuum and extreme temperatures of space, resulting in death due to asphyxiation, hypothermia, and radiation exposure.
Humans cannot survive in outer space without protective gear due to the lack of oxygen and extreme temperatures. In space, humans experience weightlessness due to microgravity, which can affect muscles and bone density over prolonged periods. Astronauts require extensive training to adapt to the challenges of living and working in space environments.
Objects in space, such as satellites or astronauts in orbit, do not experience much air or water resistance due to the lack of atmosphere or water in space. Additionally, very small objects like dust particles or certain microorganisms may not experience significant air or water resistance due to their size and weight.