Home » Health » Exploring the Payloads of Mars Orbiter Mission-2: Insights into Mars’ Atmosphere, Dust, Solar Energy, and Plasma Environment

Exploring the Payloads of Mars Orbiter Mission-2: Insights into Mars’ Atmosphere, Dust, Solar Energy, and Plasma Environment

Mars Orbiter Mission-2 also known as Mangalyaan-2 mission will carry four payloads to carry out studies on the planet. Inside this payload are scientific instruments designed to explore the characteristics of inhabited planets. (Pixabay)

1/5 Mars Orbiter Mission-2 also known as Mangalyaan-2 mission will carry four payloads to carry out studies on the planet. Inside this payload are scientific instruments designed to explore the characteristics of inhabited planets. (Pixabay)

The Mars Orbital Dust Experiment (MODEX) payload will gain insight into the origin, abundance, distribution, and flux at high altitudes on Mars. (Pixabay)

2/5 Payload The Mars Orbital Dust Experiment (MODEX) will gain insight into the origin, abundance, distribution, and flux at high altitudes on Mars. (Pixabay)

The Radio Occultation instrument will be responsible for recording the neutral profile and electron density, thereby contributing to a better understanding of the characteristics of the planet’s atmosphere. (Pixabay)

3/5 The Radio Occultation Instrument will be responsible for recording the neutral profile and electron density, thereby contributing to a better understanding of the characteristics of the planet’s atmosphere. (Pixabay)

With the help of the Energetic Ion Spectrometer (EIS), the space agency will be able to study solar energy and supra-thermal solar wind particles. This instrument will improve our understanding of the past erosion of the red planet’s atmosphere. (Pixabay)

4/5 With the help of the Energetic Ion Spectrometer (EIS), the space agency will be able to study solar energy and supra-thermal solar wind particles. This instrument will improve our understanding of the past erosion of the red planet’s atmosphere. (Pixabay)

The Langmuir Probe and Electric Field Experiment (LPEX) will enable measurements of electron number density, electron temperature, and electric field waves to help us gain a detailed understanding of the Martian plasma environment. (Pixabay)

5/5 The Langmuir Probe and Electric Field Experiment (LPEX) will enable measurements of electron number density, electron temperature, and electric field waves to help us gain a detailed understanding of the Martian plasma environment. (Pixabay)
2023-10-18 07:46:26
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