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How much thrust is needed to get to Mars?
The amount of thrust needed to get to Mars varies depending on the spacecraft's design, weight, and mission profile. Generally, it requires a spacecraft to achieve a velocity of around 24,600 miles per hour (39,600 kilometers per hour) to escape Earth's gravity and enter a trajectory towards Mars. The thrust generated during launch must overcome Earth's gravitational pull and atmospheric drag. Additionally, precise calculations are necessary for trajectory adjustments during the journey to ensure successful arrival at Mars.
How will a astronaut land on Mars?
An astronaut landing on Mars would require a spacecraft to enter the Martian atmosphere, slow down through a combination of aerodynamic drag and parachutes, and use retro-rockets for a controlled descent to the surface. The spacecraft would need to deploy landing gear to touch down safely on the Martian terrain.
Would someone be squashed by the force of gravity on mars?
A person would be squashed by gravity on Mars if there were a large slab of rockon top of him.The acceleration of gravity on Mars is 3.77 meters per second2 ... about 38% ofits value on Earth. So an astronaut who weighs 200 pounds with all his gear onEarth would have to drag around 76 pounds on Mars.
What is the plural form of Mars?
The plural form of Mars remains Mars, as it is already a plural noun.
When did the first space shuttle land on Mars?
The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.The Space Shuttle never landed on Mars. In 1971, the Russian Mars 2 and Mars 3 probes were the first things to land on Mars.
3 forms of drag?
Drag Queen Drag Racing Drag of a cigarette Helpful no?
How would the size of parachute required for a space probe be different on Mars which has a thin atmosphere or on Mars which has a thin atmosphere?
The atmosphere of Venus is very thick, and a parachute would have much greater drag for a given size, than on Earth or Mars. So it could be smaller to achieve the same slowing of a space probe's descent. On Mars, a larger parachute would be required, but fortunately Mars, being a smaller planet, has much less gravity than Earth, so the parachute does not have to resist the same acceleration force (which is roughly the same on Venus as on Earth).
How much thrust is needed to get to Mars?
The amount of thrust needed to get to Mars varies depending on the spacecraft's design, weight, and mission profile. Generally, it requires a spacecraft to achieve a velocity of around 24,600 miles per hour (39,600 kilometers per hour) to escape Earth's gravity and enter a trajectory towards Mars. The thrust generated during launch must overcome Earth's gravitational pull and atmospheric drag. Additionally, precise calculations are necessary for trajectory adjustments during the journey to ensure successful arrival at Mars.
What aspects on mars makes it difficult for the mars rover to navigate the terrain?
Mars presents several challenges for rover navigation due to its rugged terrain, which includes steep slopes, loose sand, and large rocks. The thin atmosphere results in less aerodynamic drag, making it harder for rovers to slow down during descent. Additionally, the dust storms that can occur frequently obscure visibility and impact solar power generation. Finally, the lack of GPS on Mars necessitates reliance on onboard sensors and cameras, which can complicate navigation.
What does this is such a drag mean?
'It's such a drag' means that something really annoys you and troubles you and you dont like it, for e.g. school is such a drag or this exam is such a drag...
How do you drag songs from limwire to your iPod?
you drag it
What is the root word for drag or draw?
drag
What is in the stadium where there are drag races?
drag strip
How will a astronaut land on Mars?
An astronaut landing on Mars would require a spacecraft to enter the Martian atmosphere, slow down through a combination of aerodynamic drag and parachutes, and use retro-rockets for a controlled descent to the surface. The spacecraft would need to deploy landing gear to touch down safely on the Martian terrain.
Would someone be squashed by the force of gravity on mars?
A person would be squashed by gravity on Mars if there were a large slab of rockon top of him.The acceleration of gravity on Mars is 3.77 meters per second2 ... about 38% ofits value on Earth. So an astronaut who weighs 200 pounds with all his gear onEarth would have to drag around 76 pounds on Mars.
What has the author John A Mulqueen written?
John A. Mulqueen has written: 'Applications of low lift to drag ratio aerobrakes using angle of attack variation for control' -- subject(s): Space flight to the moon, Space flight to Mars
How would the size of parachute required for a space probe be different on Venus which has a thick atmosphere or on Mars which has a thin atmosphere?
The atmosphere of Venus is very thick, and a parachute would have much greater drag for a given size, than on Earth or Mars. So it could be smaller to achieve the same slowing of a space probe's descent. On Mars, a larger parachute would be required, but fortunately Mars, being a smaller planet, has much less gravity than Earth, so the parachute does not have to resist the same acceleration force (which is roughly the same on Venus as on Earth).
