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What could cause a satalite to descend low enough that it burns up in earth atmosphere?
A satellite can descend into the Earth's atmosphere and burn up due to several factors, including atmospheric drag, which increases as it orbits at lower altitudes. This drag can be exacerbated by solar activity, which expands the atmosphere and increases its density. Additionally, a loss of propulsion or guidance systems can lead to an uncontrolled descent. Finally, the satellite may reach the end of its operational life, where it is intentionally deorbited for safety reasons.
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Which could cause a satellite to descend low enough that it burns up in earth's atmosphere?
air resistance
Which could cause satellite to descend low enough that it burns up in Earth's atmosphere?
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Which could cause a satellite to descend low enough that it burns up in Earth and acirc and 128 and 153s atmosphere?
A satellite can descend low enough to burn up in Earth's atmosphere due to factors such as increased drag from atmospheric density changes, which can occur during solar activity or atmospheric expansion. Additionally, a gradual loss of altitude can result from orbital decay caused by gravitational perturbations, atmospheric drag over time, or malfunctioning propulsion systems. Finally, intentional deorbit maneuvers for end-of-life disposal can also lead a satellite to re-enter the atmosphere and burn up.
Which could cause a satellite to descend low enough that it burns up in Earths atmosphere centripetal force air resistance gravitational force?
Air resistance is the primary force that would cause a satellite to descend low enough to burn up in Earth's atmosphere. As a satellite orbits, it experiences centripetal force that keeps it in orbit, but if it loses altitude due to drag from air resistance, the friction generated at lower altitudes can lead to increased heating and ultimately result in the satellite burning up. Gravitational force also plays a role, but it typically keeps the satellite in orbit rather than causing it to descend.
Which could cause a satellite to descend low enough that it burns up in Earth and atmosphere?
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.
Which could cause a satellite to descend low enough that it burns up in earth's atmosphere?
air resistance
Which could cause satellite to descend low enough that it burns up in Earth's atmosphere?
jkkkkkkkk
What could cause a satellite to descend low enough that it burns up in earth's atmosphere?
Friction.The Earth's atmosphere never really ends, it just gets thinner and thinner until it seamlessly merges into the solar atmosphere. Satellites in low Earth orbit experience enough drag that they can slow down, which results in them dropping nearer to Earth, where they experience even more drag.
Which could cause a satellite to descend low enough that it burns up in Earth and acirc and 128 and 153s atmosphere?
A satellite can descend low enough to burn up in Earth's atmosphere due to factors such as increased drag from atmospheric density changes, which can occur during solar activity or atmospheric expansion. Additionally, a gradual loss of altitude can result from orbital decay caused by gravitational perturbations, atmospheric drag over time, or malfunctioning propulsion systems. Finally, intentional deorbit maneuvers for end-of-life disposal can also lead a satellite to re-enter the atmosphere and burn up.
Which could cause a satellite to descend low enough that it burns up in Earths atmosphere centripetal force air resistance gravitational force?
Air resistance is the primary force that would cause a satellite to descend low enough to burn up in Earth's atmosphere. As a satellite orbits, it experiences centripetal force that keeps it in orbit, but if it loses altitude due to drag from air resistance, the friction generated at lower altitudes can lead to increased heating and ultimately result in the satellite burning up. Gravitational force also plays a role, but it typically keeps the satellite in orbit rather than causing it to descend.
Which could cause a satellite to descend low enough that it burns up in Earth and atmosphere?
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.
Does a meteorite burn the Earth's atmosphere?
No. The atmosphere burns up the meteorite.
What do you capitalitalize in when a car is driven the gasoline it burns as fuel releases carbon dioxide into the atmosphere?
when a car is driven, the gasoline it burns as fuel releases carbon dioxide into the atmosphere.
Why is a fireball not likely to occur on Mercury?
A fireball occurs when a meteoroid enters Earth's atmosphere and burns up due to friction with the air. Mercury has a very thin atmosphere, so there are not enough particles to create the friction needed for a fireball to form.
What is a meteoroids that burns up Earth's atmosphere?
a meteor
What is it called when a meteriod burns up in earth's atmosphere?
When a meteoroid enters Earth's atmosphere and burns up due to friction with the air, it is called a meteor or shooting star.
Is hydrogen combustibile?
Yes, it burns with blue flame in oxygen atmosphere.
