Satellites in space are typically located around 100 to 1,200 miles above the Earth's surface. The altitude of a satellite is determined by its intended purpose, such as communication or weather monitoring, as well as factors like orbit type and desired coverage area.
Satellite.
Satellite TV uses microwaves, which are a type of electromagnetic wave. These microwaves travel between the satellite in space and a receiver on the ground to transmit television signals.
Factors that determine personal space include culture, individual preferences, relationship with the person, gender, and emotional state. Cultural norms play a significant role in defining appropriate distances between individuals, while individual preferences and comfort levels can vary. Personal space boundaries may also change based on the familiarity or intimacy shared with the person and the emotional context of the interaction. Additionally, gender can influence personal space preferences, with research suggesting that women tend to prefer larger personal space bubbles than men.
The International Space Station orbits Earth at an average altitude of about 420 kilometers, or roughly 260 miles above the surface.
Spin motion helps stabilize the satellite and control its orientation, allowing it to maintain a consistent position in space. This is crucial for ensuring that the satellite's sensors and antennas are properly aligned. Spin motion also helps distribute heat evenly across the satellite's surface, preventing overheating.
A space orbital refers to the path that an object, such as a satellite or a planet, follows as it moves around a celestial body due to gravitational forces. It is characterized by its shape, size, and orientation, which can be circular, elliptical, parabolic, or hyperbolic. The specific parameters of an orbital, including its altitude and inclination, determine the object's behavior and function in space exploration or communication. Understanding orbital mechanics is essential for satellite deployment, space missions, and planetary motion.
A space station is a satellite.
A satellite is a Space Robot?
The Space Shuttle typically cruised at an altitude of around 200 to 400 kilometers (approximately 124 to 248 miles) above Earth, depending on its mission profile. This altitude allowed it to operate effectively in low Earth orbit, facilitating satellite deployments, scientific research, and the construction of the International Space Station. During its re-entry phase, the shuttle would descend from this cruising altitude to safely return to Earth.
The oldest piece of space debris still in orbit is the Vanguard 1 satellite, launched by NASA in 1958. This satellite was the fourth artificial satellite to be launched into Earth's orbit and is estimated to remain in orbit for over 200 years due to its high altitude.
Satellite- A probe implies probing or traveling through space and not fixed.
A space shuttle has never hit a satellite.
A "live satellite" is something that is being shown "live" from a satellite, such as images from space, or views of the Earth from a satellite in outer space. TV programs you watch on satellite is not considered "live satellite".
A satellite can descend low enough to burn up in Earth's atmosphere due to several factors, including atmospheric drag, which increases as it loses altitude, and a decrease in its orbital velocity. Additionally, events such as the malfunction of onboard systems, loss of propulsion, or collision with space debris can alter its trajectory. Over time, the effects of gravitational perturbations and solar activity can also contribute to its orbital decay. When the satellite reaches a certain altitude, the intense heat generated by atmospheric friction can cause it to disintegrate.
The satellite is in space.
The International Space Station (ISS) is a human-made satellite that serves as a research laboratory for international scientific research in microgravity. It orbits Earth at an average altitude of approximately 420 kilometers (260 miles) and travels at a speed of about 28,000 kilometers per hour (17,500 miles per hour).
The Russian space satellite is called a "cosmic satellite" in Russian, while "космический спутник" is the common term to refer to a satellite in space.