Aditya-L1 Launch LIVE Updates : ISRO successfully launched first Indian solar mission Aditya-L1 on 2 September 2023 form Sriharikota in Andhra Pradesh. ISRO has successfully landed Chandrayaan 3 on the south pole of the moon and become the first country in the world who have successfully landed on south pole of the Moon. now, India is going to observe activities of sun. it is first time ever when India is launching any Solar Mission. If you are also interested in Aditya-L1 then you can read this article where you will read all the information related to the Solar Mission of India – Aditya-L1 in this article.
Aditya-L1 mission 2023
Firstly you should know about the meaning of L1 in Aditya L1 mission 2023. It is informed that Indian Space Research Organisation- ISRO has The first Solar Mission which will observe the activities of the Sun carefully. L1 is a halo Orbit between earth and the sun It is also known as Sun earth lagrange point – L1. This is the exact point between Earth and the Sun where gravitational forces of earth and sun are equal. This mission will go up to 1500000 km far from the Earth to study the atmosphere of the Sun.
Aditya L1 launched 2023
ISRO has prepared Aditya L1 mission which will study the atmosphere of the Moon from the space. this is the first Indian Solar Mission which will observe the soon. Organisation has launched Aditya L1 mission 2023 at 11:30 a.m. on 2 September 2023 in Sriharikota, Andhra Pradesh. The mission has launched from Shekhar Dhawan Space Centre. Many citizens become witness to see the launching procedure of Aditya L1 at Shekhar Dhawan Space. however the telecast of launching the mission has also been uploaded on the official website of ISRO. you can watch the launching of Aditya L1 on the official YouTube channel of ISRO.
Features of Aditya L1
- The total weight of the spacecraft of Aditya L1 is 1500 kg.
- There is a chronograph It will protect the spacecraft from the Ultra webs of sun.
- Aditya L1 have a spectrometer which will report the atmosphere of the Sun.
- The Magneto metre will measure the magnetic field of sun in Aditya L1
- Spacecraft will also Measure the brightness of the sun’s surface from the Photometer
- A radiometer, which is used to measure the heat radiation from the Sun.
- A particle detector, which is used to measure the particles from the Sun that reach the spacecraft.
- A plasma instrument, which is used to study the plasma in the Sun’s atmosphere.
Objectives of Aditya L1
The Aditya L1 will measure Warriors criterias of sun which are reflecting life on earth. we are providing you The following Bullet points which will provide you the objectives of Aditya L1 mission 2023:
- Study the mechanisms of solar flares and coronal mass ejections (CMEs). These are the most energetic events in the solar system, and they can have a significant impact on Earth’s atmosphere and climate.
- Investigate the origin and evolution of space weather. Space weather is the condition of the space environment surrounding Earth, and it is affected by the Sun’s activity. The Aditya L1 mission will help us to better understand how space weather is created and how it evolves.
- Improve our understanding of the Sun-Earth connection. The Sun and Earth are closely connected, and the Aditya L1 mission will help us to better understand how the Sun’s activity affects Earth.
- Study the composition of the Sun’s corona. The corona is the Sun’s outermost atmosphere, and it is made up of very hot plasma. The Aditya L1 mission will help us to better understand the composition of the corona and how it is heated.
- Study the dynamics of the Sun’s corona. The corona is constantly moving, and the Aditya L1 mission will help us to better understand how it moves.
The Aditya L1 will reach in 125 days
ISRO is sending Aditya L1 spacecraft to research about the sun and the atmosphere of the Sun by following the method of previous successful Chandrayaan 3. Firstly the rocket will move around the orbit of the earth for multiple times and after that it will go fast from the orbit of the earth to the L1 point where the gravitational force of the sun and the earth are approximately the same. It will take around 125 days to complete this procedure. the rocket will go up to 15 km far from Earth in this mission.