The orbiter would detach and land in the ocean shortly after take off.
Astronauts cannot use parachutes to slow down their spacecraft because there is no atmosphere or air resistance in space to deploy and manipulate the parachute. Parachutes rely on air to create drag and slow down the descent, which is not present in the vacuum of space. Spacecraft use thrusters or heat shields to control re-entry and manage their speed during re-entry into Earth's atmosphere.
Astronauts cannot use parachutes to slow down their spacecraft when approaching the Moon because there is no atmosphere on the Moon to deploy parachutes effectively. Instead, spacecraft use propulsion systems like engines or thrusters to slow down as they approach the Moon. By firing these engines in the opposite direction they are traveling, they can reduce their speed and enter lunar orbit safely.
No, parachutes require air to create drag and slow down descent. In outer space, there is no air to provide resistance, so parachutes would not be effective. Other methods, like retro rockets or aerobraking, are used for spacecraft to slow down.
Spacecraft take off using rocket engines that generate thrust to lift them off the ground. They can land using techniques such as parachutes, airbags, or propulsive landing systems, depending on the design of the spacecraft and the requirements of the mission.
Spacecraft land back on Earth safely by using a combination of parachutes, heat shields, and sometimes thrusters to slow down their descent. The heat shield protects the spacecraft from the intense heat generated during re-entry into Earth's atmosphere, while parachutes help to further slow down the descent before touchdown. Additionally, some spacecraft may use retro rockets or airbags to cushion the landing impact.
Capsule
Astronauts cannot use parachutes to slow down their spacecraft because there is no atmosphere or air resistance in space to deploy and manipulate the parachute. Parachutes rely on air to create drag and slow down the descent, which is not present in the vacuum of space. Spacecraft use thrusters or heat shields to control re-entry and manage their speed during re-entry into Earth's atmosphere.
Astronauts cannot use parachutes to slow down their spacecraft when approaching the Moon because there is no atmosphere on the Moon to deploy parachutes effectively. Instead, spacecraft use propulsion systems like engines or thrusters to slow down as they approach the Moon. By firing these engines in the opposite direction they are traveling, they can reduce their speed and enter lunar orbit safely.
No, parachutes require air to create drag and slow down descent. In outer space, there is no air to provide resistance, so parachutes would not be effective. Other methods, like retro rockets or aerobraking, are used for spacecraft to slow down.
external fuel tank
The same reason why all spacecrafts have parachutes: During reentry into the Earth's atmosphere, the spacecraft goes extremely fast. And if there are people in the spacecraft and no parachute, they would slam into the water at that speed and it would be like hitting concrete. So without a parachute, everyone on the spacecraft would be killed.
Spacecraft take off using rocket engines that generate thrust to lift them off the ground. They can land using techniques such as parachutes, airbags, or propulsive landing systems, depending on the design of the spacecraft and the requirements of the mission.
Spacecraft land back on Earth safely by using a combination of parachutes, heat shields, and sometimes thrusters to slow down their descent. The heat shield protects the spacecraft from the intense heat generated during re-entry into Earth's atmosphere, while parachutes help to further slow down the descent before touchdown. Additionally, some spacecraft may use retro rockets or airbags to cushion the landing impact.
That was used to test the launch escape system and to verify the performance of the command module parachutes for the Apollo spacecraft from 1963-66 in five different times.
Its still parachutes.
Parachutes come in varying sizes.
A parachute would not work in the vacuum of space as there is no air for it to catch and create drag. Instead, spacecraft approaching the moon slow down through a combination of a retrograde rocket burn and gravity assist maneuvers to enter lunar orbit. Mission planners carefully calculate the spacecraft's trajectory and use precise engine firings to control its speed and trajectory.