Chandrayaan-3

Chandrayaan-3: The public now knows when Chandrayaan 3 will launch, and ISRO will soon send it into space. ISRO officials have said that the Chandrayaan 3 project is now ready to head to the Moon. This will be India’s third mission to the Moon to look at the other side. Isro scientists have stated that the mission will start on the date they said it would.

They worked together with the Chandrayaan 2 project, which was launched before Chandrayaan 3, and Chandrayaan 3 will have both a lander and a rover. The Chandrayaan 2 Orbiter is already going around the Moon. The lander robot has been carefully packed by Isro scientists so that it can be sent to the moon’s orbit.

Chandrayaan 3 Launch Date and Time

The Chandrayaan-3 mission is scheduled to launch on July 14, 2023, at 2:35 PM IST (9:05 AM UTC). The launch will take place from the Satish Dhawan Space Centre in Sriharikota, India.

The Chandrayaan-3 mission is a follow-up to the Chandrayaan-2 mission, which was launched in 2019. The Chandrayaan-3 mission will attempt to soft-land on the Moon’s south polar region and deploy a rover to explore the area.

The launch of Chandrayaan-3 has been delayed several times due to technical issues. However, the Indian Space Research Organization (ISRO) is confident that the mission will be launched on July 14, 2023.

Here are some of the key objectives of the Chandrayaan-3 mission:

  • To soft-land on the Moon’s south polar region
  • To deploy a rover to explore the area
  • To study the lunar surface and atmosphere
  • To collect samples of lunar soil and rock

Chandrayaan-3 Budget

The total budget for the Chandrayaan-3 mission is estimated to be around ₹615 crore (equivalent to ₹721 crore or US$90 million in 2023).

The budget for the Chandrayaan-3 mission was initially estimated to be around ₹500 crore (equivalent to ₹575 crore or US$73 million in 2023). However, the budget has been increased due to some technical challenges that have been encountered during the development of the mission.

The budget for the Chandrayaan-3 mission is funded by the Indian government. The mission is being carried out by the Indian Space Research Organisation (ISRO).

The Chandrayaan-3 mission is a significant step forward in India’s space exploration program. The mission will help scientists to better understand the Moon and its history. It will also help to pave the way for future missions to the Moon.

Chandrayaan-3
Chandrayaan-3

Chandrayaan 3 Take Off Place Details

The Chandrayaan-3 mission is scheduled to launch from the Satish Dhawan Space Centre (SDSC) in Sriharikota, India. The SDSC is a spaceport located on the east coast of India, about 100 kilometers from Chennai. The SDSC is operated by the Indian Space Research Organisation (ISRO).

The SDSC is a major spaceport in India. It has been used to launch a variety of satellites, including the Chandrayaan-1 and Chandrayaan-2 missions. The SDSC is also home to the ISRO’s Liquid Propulsion Systems Centre (LPSC), which is responsible for developing and testing liquid rocket engines.

The Chandrayaan-3 mission is scheduled to launch from the SDSC’s Second Launch Pad (SLP). The SLP is a dedicated launch pad for heavy-lift launch vehicles. The GSLV Mk III, which will be used to launch the Chandrayaan-3 mission, is a heavy-lift launch vehicle.

The launch of the Chandrayaan-3 mission is a significant event for India’s space program. The mission will help scientists to better understand the Moon and its history. It will also help to pave the way for future missions to the Moon.

Chandrayaan 3 Objectives

he Chandrayaan 3 mission has four main objectives:

  1. Soft-landing on the Moon’s south polar region: The Chandrayaan 3 lander will attempt to soft-land on the Moon’s south polar region, which is a region that has not been explored by any other spacecraft.
  2. Deploying a rover: The lander will deploy a rover to explore the south polar region. The rover will be equipped with a variety of instruments to study the lunar surface and atmosphere.
  3. Studying the lunar surface and atmosphere: The Chandrayaan 3 mission will study the lunar surface and atmosphere using a variety of instruments. These instruments will help scientists to better understand the Moon’s composition, evolution, and history.
  4. Collecting samples of lunar soil and rock: The Chandrayaan 3 mission will collect samples of lunar soil and rocks. These samples will be returned to Earth for further analysis.

Chandrayaan 3 Features

Feature Description
Lander The lander is the most critical part of the mission. It is responsible for landing the spacecraft safely on the lunar surface. The lander is equipped with a number of sensors and systems to help it land safely. These include a radar altimeter, a laser altimeter, and a star tracker. The lander also has a number of thrusters to help it control its descent and landing.
Rover The rover is a small, four-wheeled vehicle that will be deployed from the lander. The rover is equipped with a number of scientific instruments to help it study the lunar surface. These include a camera, a spectrometer, and a magnetometer. The rover will be able to travel up to 500 meters on the lunar surface.
Propulsion Module The propulsion module is responsible for carrying the lander and rover to the lunar surface. The propulsion module is also equipped with a number of scientific instruments to help it study the lunar environment. These include a mass spectrometer and a plasma detector.
Launch Date July 14, 2023
Landing Date August 23 or 24, 2023

Chandrayaan-3 Specifications

Specification Details
Spacecraft Orbiter, lander, rover
Orbiter Weighs 2,421 kg, carries 13 payloads
Lander Weighs 672 kg, has four legs and four retrorockets
Rover Weighs 27 kg, has six wheels and a solar panel
Launch vehicle GSLV Mk III
Launch date 14 July 2023
Launch site Satish Dhawan Space Centre, Sriharikota
Landing site Moon’s south polar region
Mission duration 12 months
Scientific objectives Study the composition of the lunar surface and atmosphere, the history of the Moon’s evolution, and the search for water ice in the lunar south polar region
Benefits Help scientists to better understand the Moon and its history, pave the way for future missions to the Moon, help to develop new technologies that can be used in space exploration, and inspire young people to pursue careers in science and engineering

Chandrayaan-3 Engine

Engine Type Thrust Specific impulse
Liquid Engine Vikas (LEV) Liquid-fueled rocket engine 800 N 320 s
Attitude Control Thrusters Monopropellant hydrazine thrusters 22 N 220 s
Reaction Control System Thrusters Bipropellant hydrazine thrusters 12 N 220 s

The LEV engine is the main engine of the Chandrayaan-3 spacecraft. It is used to propel the spacecraft into orbit and to land on the Moon. The attitude control thrusters are used to control the orientation of the spacecraft in space. The reaction control system thrusters are used to make small adjustments to the spacecraft’s position and velocity.

The specific impulse of an engine is a measure of its efficiency. It is the ratio of the thrust of an engine to the mass of propellant it consumes per second. The higher the specific impulse, the more efficient the engine.

The Chandrayaan-3 engine has a specific impulse of 320 seconds. This is a relatively high specific impulse, which means that the engine is relatively efficient.

The Chandrayaan-3 engine is a critical component of the spacecraft. It is responsible for getting the spacecraft into orbit and landing it on the Moon. The engine’s high specific impulse will help to ensure that the spacecraft has enough fuel to complete its mission.

Chandrayaan 3 Design

Chandrayaan-3 is a lunar exploration mission by the Indian Space Research Organisation (ISRO). It is a follow-on mission to Chandrayaan-2, which was launched in 2019. Chandrayaan-3 consists of a lander, a rover, and a propulsion module.

The lander is the most critical part of the mission. It is responsible for landing the spacecraft safely on the lunar surface. The lander is equipped with a number of sensors and systems to help it land safely. These include a radar altimeter, a laser altimeter, and a star tracker. The lander also has a number of thrusters to help it control its descent and landing.

The rover is a small, four-wheeled vehicle that will be deployed from the lander. The rover is equipped with a number of scientific instruments to help it study the lunar surface. These include a camera, a spectrometer, and a magnetometer. The rover will be able to travel up to 500 meters on the lunar surface.

The propulsion module is responsible for carrying the lander and rover to the lunar surface. The propulsion module is also equipped with a number of scientific instruments to help it study the lunar environment. These include a mass spectrometer and a plasma detector.

The design of Chandrayaan-3 has been improved over the design of Chandrayaan-2. The lander has been redesigned to make it more stable and to improve its chances of a safe landing. The rover has also been redesigned to make it more mobile and to improve its scientific capabilities.

Here are some of the key features of the Chandrayaan-3 design:

  • The lander is equipped with a number of sensors and systems to help it land safely on the lunar surface.
  • The rover is a small, four-wheeled vehicle that will be deployed from the lander.
  • The propulsion module is responsible for carrying the lander and rover to the lunar surface.
  • The design of Chandrayaan-3 has been improved over the design of Chandrayaan-2.
  • The launch of Chandrayaan-3 is scheduled for July 14, 2023.
  • The spacecraft is expected to land on the lunar surface on August 23 or 24, 2023.

Chandrayaan-3 mission Benefits

The Chandrayaan-3 mission is a significant undertaking, and it has the potential to make major contributions to our understanding of the Moon. Here are some of the benefits of the Chandrayaan-3 mission:

  • Scientific benefits: The Chandrayaan-3 mission will help scientists to better understand the Moon and its history. The mission will study the composition of the lunar surface and atmosphere, the history of the Moon’s evolution, and the search for water ice in the lunar south polar region. The mission will also collect samples of lunar soil and rock, which will be returned to Earth for further analysis.
  • Technological benefits: The Chandrayaan-3 mission will help to develop new technologies that can be used in space exploration. The mission will test new technologies for soft-landing on the Moon, deploying rovers, and collecting samples. The mission will also help to develop new techniques for studying the Moon’s surface and atmosphere.
  • Educational benefits: The Chandrayaan-3 mission will inspire young people to pursue careers in science and engineering. The mission will be a major media event, and it will generate a lot of interest in space exploration. The mission will also provide opportunities for students to learn about space exploration and to participate in the mission.

Chandrayaan 3 Significance of the mission

The Chandrayaan-3 mission is a significant undertaking, and it has the potential to make major contributions to our understanding of the Moon. Here are some of the reasons why the Chandrayaan-3 mission is significant:

  • It is the first mission to soft-land on the Moon’s south polar region: The south polar region of the Moon is a region that has not been explored by any other spacecraft. This region is thought to be rich in water ice, which is a valuable resource for future space exploration.
  • It will deploy a rover to explore the south polar region: The rover will be equipped with a variety of instruments to study the lunar surface and atmosphere. The rover will also collect samples of lunar soil and rock, which will be returned to Earth for further analysis.
  • It will help to develop new technologies that can be used in space exploration: The Chandrayaan-3 mission will test new technologies for soft-landing on the Moon, deploying rovers, and collecting samples. The mission will also help to develop new techniques for studying the Moon’s surface and atmosphere.
  • It will inspire young people to pursue careers in science and engineering: The Chandrayaan-3 mission will be a major media event, and it will generate a lot of interest in space exploration. The mission will also provide opportunities for students to learn about space exploration and to participate in the mission.

Chandrayaan-3 scientists

here are some of the scientists who are involved in the Chandrayaan-3 mission:

  • P Veeramuthuvel is the Project Director of Chandrayaan-3. He is a senior scientist at the Indian Space Research Organisation (ISRO) and has been involved in several space missions, including Chandrayaan-1 and Chandrayaan-2.
  • Ritu Karidhal is the Mission Director of Chandrayaan-3. She is a senior scientist at ISRO and has over 20 years of experience in the space sector. She was also the Mission Director of Chandrayaan-2.
  • Jitendra Nath Goswami is the Principal Scientific Investigator of Chandrayaan-3. He is the Director of the Physical Research Laboratory (PRL) in Ahmedabad, India. He is a leading expert in lunar science and has been involved in several lunar missions, including Chandrayaan-1.
  • K Sivan is the Chairman of ISRO. He is a leading scientist in the space sector and has been involved in several space missions, including Chandrayaan-1 and Chandrayaan-2.

Which materials are used in Chandrayaan 3

The Chandrayaan-3 mission will use a variety of materials, including:

  • Titanium: Titanium is a strong and lightweight metal that is often used in spacecraft construction. It is also resistant to corrosion and heat, which makes it ideal for use in space.
  • Aluminium: Aluminium is another strong and lightweight metal that is often used in spacecraft construction. It is also relatively inexpensive, which makes it a good choice for large spacecraft like Chandrayaan-3.
  • Ceramics: Ceramics are heat-resistant materials that are often used in spacecraft components that need to withstand high temperatures. They are also strong and lightweight, which makes them a good choice for spacecraft construction.
  • Composite materials: Composite materials are made from a combination of different materials, such as metals, ceramics, and plastics. They are often used in spacecraft construction because they can be tailored to specific requirements.
  • Electronics: Chandrayaan-3 will use a variety of electronic components, such as computers, sensors, and actuators. These components will be made from a variety of materials, including silicon, gallium arsenide, and plastics.

Chandrayaan-3: How you can watch the launch live at [website]

The launch of Chandrayaan-3 will be live-streamed on the ISRO’s official YouTube channel. The launch is scheduled to take place on July 14, 2023, at 2:35 p.m. IST (9:05 a.m. UTC).

You can also watch the launch live on the following websites:

  • Doordarshan
  • News18
  • India Today
  • The Hindu

The launch will also be live-tweeted by ISRO on its official Twitter account.

Why Chandrayaan 3 Delay?

The Chandrayaan 3 mission has been delayed several times due to technical issues. The main issue has been with the lander’s propulsion system. The lander is powered by a Liquid Engine Vikas (LEV) engine, which is a modified version of the engine used in the Chandrayaan-2 mission. However, the LEV engine in Chandrayaan-3 has been experiencing some problems during testing.

The ISRO has been working to resolve the issues with the LEV engine. In April 2022, the ISRO successfully tested the LEV engine in a static firing test. This test showed that the engine is working properly, and the ISRO is confident that the issue will be resolved before the launch of Chandrayaan 3.

Another technical issue that has delayed the Chandrayaan 3 mission is the development of the rover. The rover is being developed by the Indian Institute of Technology, Madras. The rover is a six-wheeled vehicle that is designed to explore the lunar surface. The rover is equipped with a variety of instruments to study the lunar surface and atmosphere.

The development of the rover has been delayed due to some technical challenges. However, the ISRO is confident that the rover will be ready for the launch of Chandrayaan 3.

The Chandrayaan 3 mission is a complex undertaking, and there are always risks associated with any space mission. However, the ISRO is confident that the technical issues will be resolved, and the mission will be launched on schedule.

Similar Posts

Leave a Reply

Your email address will not be published. Required fields are marked *