Arul Sivan said:What is the power source for space probes and how it is sustained for long flights in space?
Arul Sivan said:Also how do space probes reach phenomenal speeds (Helios attained 252,792 km/h !)
Arul Sivan said:Thanks for the info, but how is it possible to achieve high speed in space when compared to Earth . In Earth the max speed achieved is around 7 mach
The main purpose of a propulsion system in a space probe is to provide the necessary thrust to move the probe through space and reach its intended destination. It is essentially the engine of the probe, allowing it to overcome the gravitational pull of celestial bodies and maneuver through the vastness of space.
There are several types of propulsion systems used in space probes, including chemical, electric, and nuclear. Chemical propulsion systems, such as liquid or solid rocket engines, are commonly used for initial launch and short-distance travel. Electric propulsion systems, such as ion or plasma engines, are more efficient and are often used for long-distance travel. Nuclear propulsion systems, such as nuclear thermal or nuclear electric, are still in development but show promising potential for future space missions.
In space, there is no air or atmosphere to provide thrust for propulsion systems, so they must rely on Newton's third law of motion: for every action, there is an equal and opposite reaction. This means that propulsion systems work by expelling mass or accelerating particles in one direction, which creates a force in the opposite direction, propelling the spacecraft forward.
One of the major challenges of using a propulsion system in space probes is the limited amount of fuel that can be carried on board. This limits the distance the probe can travel and the duration of its mission. Additionally, the extreme conditions of space, such as extreme temperatures and radiation, can also pose challenges for the operation and maintenance of propulsion systems.
When determining the most suitable propulsion system for a space probe mission, scientists consider various factors such as the destination, mission duration, payload weight, and available resources. They also consider the efficiency, reliability, and cost-effectiveness of different propulsion systems. Ultimately, the decision is based on the specific needs and goals of the mission, as well as the technological capabilities of the spacecraft.