The Innovation helicopter, which started April 19 from Jeyero on the surface of Mars, had no “terrible” target. The only question that creativity had to ask was whether it was possible to have a controlled flight to Mars. NASA has a successful solution to that – flying is possible. This is a great revolution. A revolution that brought major changes to the sphere of international space and increased exploration. There has always been concern that this revolution is possible. Elsewhere, not all earth conditions are favorable. The atmosphere can be thinner or thicker than the ground. But innovation has shown that this major obstacle can be overcome with technological excellence. The flight occurred on the surface of Mars, which is very thin and at a density of only 1% of the Earth’s atmosphere. Why is it so important to know if flying is possible? Why celebrate it?
We have seen humans fly planes and other spaceships to aliens in science fiction films and elsewhere. But this is not just a story. Humans want to use such systems in future exploration. NASA, the last word on international spaceflight, has covert and open plans in this regard. Astronomers are well aware that this is the only way to perform the probe. Current inspection systems generally rely on rotating satellites, landing pads, and robotic vehicles rotating the surface.
But with these alone, it is impossible to get complete information about another planet or space area. Many planets include high mountains, vast lakes, oceans and craters. These are areas where secrets and invaluable information are hidden. Controlled air systems will help explore here successfully. Humans also have plans to use space after studies. In the future, mining could occur in mineral-rich regions of the solar system. Colonies can be established in exotic territories if life-sustaining conditions can be created … the opportunities are endless. In all this, controlled air systems will be essential.
Man has already flown over non-terrestrial areas. Apollo mission moon units landed human beings on the moon in the sky and brought the passengers back. The Soviet Union flew balloons in 1985 as part of Vega 1 and Vega 2 missions on the neighboring planet Venus. But none of these were controlled flights. Mimi Ong, Ingenuity Project Leader, says the future is defining for the future exploration of space, including drones and robotic aircraft. With this, another future project for NASA appeared. The project is the serpent that the astronauts call an ingenious giant. Launched in 2026, this unmanned mission will start from Earth in 2026 and reach its destination in 2034.
Dragonfly’s journey to Titan, Saturn’s satellite and the most intense region of space. Saturn is noble and has no hope of living. But Titan does not. This satellite is a place where many mysteries and secrets hide. As the name implies, the eight-rotation dragonfly is a drone that flies from one place to another and explores again. NASA calls the dragonfly flight a frog jump.
The main task of the Dragonfly mission is to check whether Titan is alive, or contains life-related chemicals. The Dragonfly was designed by NASA based on information provided by Cassini, the legendary long-awaited mission of Saturn and the planet’s satellite systems, and Higgins, the rover that landed on Titan. On Titan, the atmosphere is four times heavier than that of Earth, and the force of gravity is less. The atmosphere is mostly filled with nitrogen. Methane-rich clouds will rain from time to time.
Titan is 140 million kilometers from the sun. 10 times the distance from sun to earth. So the temperature in the area is -179 degrees. There are pros and cons to flying here. Scientists say that Titan’s conditions are similar to Earth’s. Thus, studying Titan can provide insight into some of the most important issues, including the origins of life on Earth. The first serpent that landed on Titan is Shangri-La. The information is then transported by air to various locations for sample collection and evaluation.
Each walk takes approximately eight meters. The drone has a weight of 459 kg, has a top speed of 36 kilometers per hour and can reach heights of up to 4 kilometers per hour. The four instruments are responsible for sampling and evaluation. The job is powered by a lithium-ion battery. There is also a thermoelectric generator to charge the battery. After flying through different areas, the expedition will sample the famous Silk Crater on Titan. The Silk Crater is believed to be an early water site and other organic compounds. This will give you invaluable information from here.
Dragonflies are estimated to travel 175 km on Titan. The distance covered by dragonflies is twice more than all the vehicles that have explored Mars. This number is a direct testament to what a flight can do after frequent travel.
The Dragonfly is part of NASA’s “New Frontier” project to explore beyond traditional regions. Other projects include New Horizons for Pluto, Juno for Jupiter, and Osiris Rex for the asteroid Bennu. This is the responsibility of NASA’s Planetary Missions Program.
English summary: How does the historic flight of NASA’s innovative helicopter help Mars in the future?