The number of thrusters on a spaceship can vary depending on the size and type of the spacecraft. Typically, a spaceship may have multiple thrusters, including main propulsion engines for large maneuvers and smaller thrusters for fine control and adjustments in orientation. Some spacecraft may have dozens of thrusters for different purposes.
A spaceship can turn in space by firing thrusters or adjusting the direction of its engine exhaust. By changing the direction of the thrust force, the spaceship can rotate and change its orientation. Additionally, gyroscopes can be used to help control and stabilize the spacecraft during the turning process.
with astroknots
Spaceships use thrusters to steer in space. These thrusters expel gas at high speeds in a specific direction, creating a reaction force that pushes the spaceship in the opposite direction. By controlling the firing of these thrusters, the spaceship can change its orientation and direction in the vacuum of space.
A spaceship flies in space by using thrusters to generate propulsion. By expelling mass in one direction, the spaceship experiences a reaction force in the opposite direction, allowing it to move forward. In space, there is no air resistance to slow the spaceship down, so it can continue moving at a constant speed until another force, like gravity or another thruster, acts upon it.
The main parts of a spaceship include the hull (outer structure), propulsion system (engines), guidance system (controls direction), life support system (provides air and water), communication system (for contacting Earth), and payload (equipment or cargo). Additional components can include solar panels for power, landing gear, and thermal protection.
The thrusters at the bottom of the rocket ship.
Imagine a rocket ship which can either be pointing up (positive) or down (negative). The rocket ship has forward thrusters (positive) and reverse thrusters (negative).Now if the spaceship is pointing down (negative) AND fires its reverse thrusters (negative) it goes UP (positive). So negative and negative make positive.Other permutations are possible. For example, if the spaceship is facing down and fires its forward thrusters, it goes DOWN. So a negative and a positive make a negative.
The parts of a spaceship vary greatly depending on the type of craft. Each ship generally has life support systems, rockets or thrusters, a guidance or navigation system, and a command where data is handled.
A spaceship can turn in space by firing thrusters or adjusting the direction of its engine exhaust. By changing the direction of the thrust force, the spaceship can rotate and change its orientation. Additionally, gyroscopes can be used to help control and stabilize the spacecraft during the turning process.
with astroknots
Spaceships use thrusters to steer in space. These thrusters expel gas at high speeds in a specific direction, creating a reaction force that pushes the spaceship in the opposite direction. By controlling the firing of these thrusters, the spaceship can change its orientation and direction in the vacuum of space.
A spaceship flies in space by using thrusters to generate propulsion. By expelling mass in one direction, the spaceship experiences a reaction force in the opposite direction, allowing it to move forward. In space, there is no air resistance to slow the spaceship down, so it can continue moving at a constant speed until another force, like gravity or another thruster, acts upon it.
The main parts of a spaceship include the hull (outer structure), propulsion system (engines), guidance system (controls direction), life support system (provides air and water), communication system (for contacting Earth), and payload (equipment or cargo). Additional components can include solar panels for power, landing gear, and thermal protection.
The SM had 16 RCS thrusters (RCS stands for Reaction Control System). The Command Module (CM) had an additional 12.
Spaceship to Saturn has 160 pages.
the question doesn't make sense NEW 8/14/2012 (PurpleMouse): I think the ask-er is trying to say, "how long did it take the spaceship to land on mars?" It took a year for a rover to land, so maybe less for a spaceship.
Astronauts control their spaceship using specialized control panels, joysticks, and touchscreens to maneuver and navigate the spacecraft. They receive training on these systems before the mission to ensure they can operate them effectively in the space environment. Additionally, ground control teams on Earth provide guidance and support to astronauts during critical maneuvers.