very small
The winds of outer space are called solar winds. Not really air but it is the movement of gases and charged particles coming from the sun or the planets into outer space.
cosmic dust
The outer zone of Earth's atmosphere is called the exosphere. It is the highest layer of the Earth's atmosphere, blending into outer space. The exosphere is where some satellites orbit and where atmospheric particles can escape into space.
because the sun faces the earth while the earth is being hot Outer space is neither hot nor cold. Temperature measures the energy of atomic particles. Sense there is no atomic particles in the vacuum of outer space there is no temperature.
Space is filled with various particles, including photons (particles of light), cosmic rays (high-energy particles from outer space), neutrinos (tiny, neutral subatomic particles), and dust particles. These particles exist throughout the universe and play a crucial role in shaping the cosmos.
Most of outer space is composed of vacuum, which is a near-perfect emptiness with very low density of particles. It also consists of various forms of energy, such as electromagnetic radiation. Additionally, there are celestial bodies like stars, planets, asteroids, and comets scattered throughout space.
Oh, what a delightful question, friend! Outer space is indeed mostly a vacuum, filled with tiny particles spread out very far apart. Take a moment to appreciate the vastness and tranquility of space, just like when we admire a peaceful lake or a serene meadow.
Sound is a vibration when something makes a noise every thing around vibrates in order to make the sound for it to travel it needs particles to vibrate there is almost no matter in outer space hence no particles
A vacuum is a space devoid of matter, where the pressure is lower than atmospheric pressure. It is commonly found in outer space, with very few particles present.
Put a thermometer out at night, and you will know. Results may vary, depending on the time of year, local climate, etc.If you mean outer space, in outer space, it doesn't make much sense to talk about "temperature", because there are very few particles. If those particles do have some kinetic energy, that won't change much if they briefly get into the Earth's shadow.Put a thermometer out at night, and you will know. Results may vary, depending on the time of year, local climate, etc.If you mean outer space, in outer space, it doesn't make much sense to talk about "temperature", because there are very few particles. If those particles do have some kinetic energy, that won't change much if they briefly get into the Earth's shadow.Put a thermometer out at night, and you will know. Results may vary, depending on the time of year, local climate, etc.If you mean outer space, in outer space, it doesn't make much sense to talk about "temperature", because there are very few particles. If those particles do have some kinetic energy, that won't change much if they briefly get into the Earth's shadow.Put a thermometer out at night, and you will know. Results may vary, depending on the time of year, local climate, etc.If you mean outer space, in outer space, it doesn't make much sense to talk about "temperature", because there are very few particles. If those particles do have some kinetic energy, that won't change much if they briefly get into the Earth's shadow.
Conduction requires particles to physically touch to transfer heat. In a vacuum (like outer space), there aren't enough particles for conduction to happen efficiently. Heat transfer in space primarily occurs through radiation, where electromagnetic waves carry heat energy.
A vacuum is a space that is entirely empty of matter or air. It has extremely low pressure, so there are no particles or atoms present. This is different from outer space, which still contains some particles, such as gas and dust.