Prograde, retrograde, normal, anti-normal, radial-in, and radial-out are terms used in orbital mechanics to describe the direction of motion of a spacecraft: Prograde: The direction of motion that is in the same direction as the rotation of the primary object, such as a planet. Retrograde: The direction of motion that is in the opposite direction of the rotation of the primary object. Normal: The direction that is perpendicular to the orbital plane. Anti-normal: The direction that is opposite to the normal direction. Radial-in: The direction that is parallel to the orbital plane and points towards the focus of the orbit. Radial-out: The direction that is parallel to the orbital plane and points away from the body
A universal space docking port is a standard docking interface that allows any two spacecraft to dock or be berthed. The goal of a universal docking port is to prevent astronauts from using the wrong docking system for the space station. Here are some examples of docking ports: International Docking System Standard (IDSS): Used by the International Space Station (ISS) to support crew rescue operations and provide a standard docking interface Universal Docking Module (UDM): A planned Russian docking module for the ISS International Docking Adapter (IDA): A docking adapter that has been deployed in multiple versions The first universal docking device was used in 1975 by the US Apollo and Soviet Soyuz spacecraft. The American version had a large airlock to allow the two crews to meet despite differences in cabin pressure.
The best part of ISRO missions is that most of the technologies used are indigenously developed. A True make in India initiative. ISRO is not just a wrapper using foreign technology.
India achieving its first space docking is a monumental milestone, demonstrating advanced capabilities in orbital rendezvous and docking technology. This achievement can indeed be leveraged in various ways, including upgrading programs like the AMCA (Advanced Medium Combat Aircraft) and pushing the boundaries of 6.5-generation fighter development with space-oriented missions. Here’s how this capability could translate into advancements: 1. Leveraging Space Docking for AMCA Upgrades Integration with Orbital Platforms: Space docking capabilities can allow AMCA or its future iterations to integrate with orbital refueling or weaponry stations. This could enable long-duration missions with mid-space refueling, enhancing AMCA's range and endurance far beyond Earth’s atmosphere. Development of Space-Ready Avionics: The avionics required for space docking-such as precise navigation, autonomous operation, and robust communication systems-could be adapted for AMCA to operate seamlessly in near-space environments. Enhanced Data Processing and AI: Space missions require advanced AI for autonomous operation. These technologies can be integrated into AMCA to achieve next-level autonomy and decision-making in high-stress scenarios. 2. India’s Strategic Leap: Fighter Aircraft with Space Mission Capabilities Hypersonic and Orbital Capability: A 6.5-generation fighter could be designed to operate at hypersonic speeds, transitioning into low Earth orbit (LEO) for space-based missions, such as satellite defense or anti-satellite (ASAT) operations. Space-Weapon Systems: Docking technology could enable a fighter to carry modular weapon systems, deployable in space. For example: Kinetic energy weapons for ASAT roles. High-energy lasers or directed-energy weapons capable of operating in vacuum conditions. Space-Based ISR (Intelligence, Surveillance, Reconnaissance): A space-capable fighter could be equipped with advanced sensors to provide ISR capabilities over a broader range, including monitoring adversary satellites or conducting strategic reconnaissance. 3. Competitive Advantage Over China While China has a strong space program (e.g., Tiangong Space Station), its focus is not yet on integrating space docking technology into fighter aircraft or creating space-operable combat platforms. By achieving this capability, India could leap ahead in a niche domain that merges aerospace and defense, outpacing both China and other nations in space-based military aviation. 4. Pathway to a 6.5-Generation Fighter Key Features of a 6.5-Gen Fighter with Space Capabilities: Extreme Altitude and Speed: Capable of operating at near-space altitudes with hypersonic speeds (Mach 5+). Energy Independence: Use of next-gen propulsion systems, such as scramjets or small modular reactors for space missions. Multi-Domain Operation: Seamless transition between atmospheric and exo-atmospheric operations. Autonomy: Advanced AI for decision-making in space, where communication latency with ground control can be a limitation. Contributions from Space Docking Technology: High-precision sensors and docking mechanisms can evolve into orbital support systems for manned or unmanned space fighters. Real-time data processing and telemetry systems developed for docking can enhance situational awareness and coordination in space. 5. Practical Applications for National Security Space Supremacy: A fighter capable of docking in space can serve as a base for anti-satellite operations, a critical advantage in a future where space will be a contested domain. Satellite Servicing and Defense: These aircraft could service Indian satellites, defend them from adversarial threats, or act as a deterrent to space aggression. Enhanced Strategic Reach: Combining space-based platforms with AMCA upgrades can enable India to project power across new domains, especially in areas where its terrestrial reach is limited. 6. Challenges and Roadmap Technical Challenges: Developing propulsion systems that work across atmospheric and space domains. Ensuring thermal protection during atmospheric reentry. Miniaturizing space systems for integration into a fighter-sized platform. Roadmap: Collaborate with ISRO and DRDO to integrate space docking technologies into defense platforms. Use India’s existing expertise in hypersonic vehicles (e.g., HSTDV) to develop propulsion and aerodynamics for high-altitude operations. Leverage international partnerships (e.g., Russia, France) for co-development of advanced space-military technologies. Conclusion India’s space docking capability opens a gateway to integrating space and aerial defense, potentially allowing AMCA to evolve into a 6.5-generation space-operable fighter. By prioritizing this niche and leveraging its growing expertise in both aviation and space technology, India could establish itself as a global leader in aerospace defense innovation.
India needs to boost it's private space sector. ISRO is a very slow monolith and does not invest and innovate fast enough and a result is really behind it's peers. Nuclear Energy is another problematic and slow sector that does not see enough vitality in innovation.
@@harris566 GE Rolls Royce SpaceX are able to do well in America, but same of similar initiatives in India will likely fail. Investment environment and growth is still terrible in India. There is barely any innovation and creation of new ground breaking technology coming out of India. India has always been a follower in technology.
@@san-chil .... No doubt jet engine technology including metallurgy is complicated and need lot of investment more so when market is very limited competing with already established master engine makers .
"Congratulations to ISRO on the successful launch of the docking station! This remarkable achievement showcases India’s growing prowess in space technology and innovation. Your dedication inspires the nation, setting new milestones in space exploration. Thank you for making us proud and leading India towards a brighter, limitless future in space!"
@@badlav120 I don't agree with you, for spece rockets and other joints are designed and reserach for outer environment and on basis of other celestial body, like mars satelite, sun satellite, moon satelite or rover, landed etc. These things process are not control by manually. Or by hand, these things are depend on design and wireless signal. While a jet engine craft operated by pilot, and it fly only in earth atmosphere, HAL only need to crack how to increase most relevant fuel engine which have stealth technology. Actually indian govt hire so incompetent scientist in hal who unable to make a proper engine yet.
@@ayushjaiswal9863 nah man rocket propulsion is far easier compared to jet propulsion, here's the thing there are too many elements when it comes to jet , metallurgy plays big role here because a jet engine has to work in different environments with change in temperatures rapidly , even if you invite best minds of India to create jet engine it will take us next 10 years for first test only, there's a reason why only handful of countries design jet engines 4-5 that's it .
All the best wishes for ISRO Jay ISRO Jay ISRO Jay ISRO Jay barath Jay barath Jay barath Jay barath Jay barath Jay hind jay hind jay hind jay hind jay hind jay 🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳💪💪💪💪💪💪💪💪💪💪❤❤❤❤❤
This is the same journalist who shouted at the scientist briefing the press after a failed mission. I would have not let him come in a 50 km radius of any facility let alone sitting beside ISRO chief.
If India relinquishes its disputed territories with China (one of the powder kegs created by the British, such as the McMahon Line) and joins hands with China for development, India's technological advancements could reach the top 3 globally within 10 years.The quality of life for the Indian people would also improve significantly within 10 years.
A great topic for discussion which could have been improved by slides or timelines of launches. Also how this docking shall help in short run. While Dr. Somnath knows how to sit in front of the camera, the interviewer needs more polish.
I was always thinking that if they could develop a way of refuelling a orbiting satellite and guse what, you hearded from the hourses mouth that they are developing that technology and not just that, they are also working on how to replace a battery on a orbiting satellite, it's good to know ISRO is progressing leaps and bounds.❤
Sir some of ISRO fans are in their early or late seventies and they want manned moon landing in their life time. Also get fresh candidates from air force to prepare for further space missions.
I congratulate India on its success in space missions but I can’t understand why it’s not doing any improvement basic sanitation. Why Indian railways doesn’t have a proper sanitation system. Disgusting
Space docking is an effortless job, China completed the job within 2days in 2011, and China just stole and copied US tech. Why does India not do that? It saves time and money.
Sir send someone from ISRO to DRDO to develop our Kaveri engine for LCA. Delay is very painfull. Other countries are late to begin but they are faster than DRDO in engine development. China, Turkiye are best example. China is very advanced and Turkiye is also catching.
This ISRO dude is so media limelight thirsty. Each and every PSLV launch or nut&bolt usage shows him addressing media bites. How does he sleep in night when DEC 2024 Bharat testing engine for less than 4 tonne payload which is not even meeting domestic requirement. While making merry with U$2billions yearly with army of 20,000 employees. USA engineers designed, tested and iterated without pocket calculator in those days but now in 2000s Bharat is using super computer, CAD and FEA software to accelerate design & development with exponential speed. Yet we he is happily beating chest and bragging on media about DOCKING gate. i would have rubbed my shoe on his face for clowning tax payers.
Comparing USA with india ???? India got freedom in 1947 only after loot and plunder by almost all europian countries . In USA at some point of time was built by British with money looted from india . Even after having technology india was not permitted to test our indigence nuclear and space technology by USA .
Listening to Dr. S Somnath inspires us by his passion towards space
Yes. Very nice and a successful personal ❤
Watched this after the successful docking. Amazing to hear what all possibilities for using the docking technology. Proud of ISRO.🎉
May the Docking and Undocking experiment by ISRO be a grand success 🇮🇳🕉️🙏🏼🇮🇳🕉️🙏🏼🇮🇳🕉️🙏🏼
There are very few organizations left that India is really proud about. Thanks for making us proud.
ISRO❤ 0:34
0:45 0:46 0:47 ❤
Best wishes to Dr Somnath and other ISRO scientists.
Isro Joy Ho🇮🇳🙏🙏
Great composure Dr Somnath sir
Best wishes to our ISRO Scientists ❤❤
All the best to ISRO❤️👍👌💐🙌🕉
Congratulations to the entire ISRO family
Indian scientists are proud of the space exploration they have started.
Prograde, retrograde, normal, anti-normal, radial-in, and radial-out are terms used in orbital mechanics to describe the direction of motion of a spacecraft:
Prograde: The direction of motion that is in the same direction as the rotation of the primary object, such as a planet.
Retrograde: The direction of motion that is in the opposite direction of the rotation of the primary object.
Normal: The direction that is perpendicular to the orbital plane.
Anti-normal: The direction that is opposite to the normal direction.
Radial-in: The direction that is parallel to the orbital plane and points towards the focus of the orbit.
Radial-out: The direction that is parallel to the orbital plane and points away from the body
A universal space docking port is a standard docking interface that allows any two spacecraft to dock or be berthed. The goal of a universal docking port is to prevent astronauts from using the wrong docking system for the space station.
Here are some examples of docking ports:
International Docking System Standard (IDSS): Used by the International Space Station (ISS) to support crew rescue operations and provide a standard docking interface
Universal Docking Module (UDM): A planned Russian docking module for the ISS
International Docking Adapter (IDA): A docking adapter that has been deployed in multiple versions
The first universal docking device was used in 1975 by the US Apollo and Soviet Soyuz spacecraft. The American version had a large airlock to allow the two crews to meet despite differences in cabin pressure.
Thank you chat gpt.
@Marv3Lthe1 gemini not gtp
Will be Marvelous achievement and success for BHARAT and ISRO in ordered to spece docking, two different SATTELIGHT in the space .
It is “satellite” and not “sattelight.”
India grows because of science and it's applications
Work by ISRO is at the highest point in excellence. Namasthe to all Scientists
All the best ✌✌
ISRO ❤❤
& MY BHARAT ❤❤✌✌👍👍
All the best team ISRO all members, jai hind and jai Bharat 🙏❤❤
Sir.....❤💪🇮🇳..., praying for d sucet
The best part of ISRO missions is that most of the technologies used are indigenously developed. A True make in India initiative.
ISRO is not just a wrapper using foreign technology.
Salute to Dr. Somnath Sir and his hard working team, Sir we bhartiyas are very proud of you all, all the best for your future projects Jay Shriram
All the best ❤️
Superb explanation by Dr.Somnathji, Chairman(Ex) ISRO❤❤👋👋🤝🤝🌺🌺🌼🌼
Salute somnath sirji and team members vision.jai Hind bharatwasi excellent inspiration 👍
Excited for 30 Dec 🇮🇳🚀
All the best 💐
❤❤❤ ISRO
👍💪 good.
Big congratulation to all our brave scientists of ISRO n indeed added one more feather in the space missions
Great conversation.
We are proud of ISRO🌹🌹🌹🌹🌹🌹
Dr S. SOMENATH deliveres in such an interesting and lucid way !Thanks, Namaste.
India achieving its first space docking is a monumental milestone, demonstrating advanced capabilities in orbital rendezvous and docking technology. This achievement can indeed be leveraged in various ways, including upgrading programs like the AMCA (Advanced Medium Combat Aircraft) and pushing the boundaries of 6.5-generation fighter development with space-oriented missions. Here’s how this capability could translate into advancements:
1. Leveraging Space Docking for AMCA Upgrades
Integration with Orbital Platforms:
Space docking capabilities can allow AMCA or its future iterations to integrate with orbital refueling or weaponry stations.
This could enable long-duration missions with mid-space refueling, enhancing AMCA's range and endurance far beyond Earth’s atmosphere.
Development of Space-Ready Avionics:
The avionics required for space docking-such as precise navigation, autonomous operation, and robust communication systems-could be adapted for AMCA to operate seamlessly in near-space environments.
Enhanced Data Processing and AI:
Space missions require advanced AI for autonomous operation. These technologies can be integrated into AMCA to achieve next-level autonomy and decision-making in high-stress scenarios.
2. India’s Strategic Leap: Fighter Aircraft with Space Mission Capabilities
Hypersonic and Orbital Capability:
A 6.5-generation fighter could be designed to operate at hypersonic speeds, transitioning into low Earth orbit (LEO) for space-based missions, such as satellite defense or anti-satellite (ASAT) operations.
Space-Weapon Systems:
Docking technology could enable a fighter to carry modular weapon systems, deployable in space. For example:
Kinetic energy weapons for ASAT roles.
High-energy lasers or directed-energy weapons capable of operating in vacuum conditions.
Space-Based ISR (Intelligence, Surveillance, Reconnaissance):
A space-capable fighter could be equipped with advanced sensors to provide ISR capabilities over a broader range, including monitoring adversary satellites or conducting strategic reconnaissance.
3. Competitive Advantage Over China
While China has a strong space program (e.g., Tiangong Space Station), its focus is not yet on integrating space docking technology into fighter aircraft or creating space-operable combat platforms.
By achieving this capability, India could leap ahead in a niche domain that merges aerospace and defense, outpacing both China and other nations in space-based military aviation.
4. Pathway to a 6.5-Generation Fighter
Key Features of a 6.5-Gen Fighter with Space Capabilities:
Extreme Altitude and Speed: Capable of operating at near-space altitudes with hypersonic speeds (Mach 5+).
Energy Independence: Use of next-gen propulsion systems, such as scramjets or small modular reactors for space missions.
Multi-Domain Operation: Seamless transition between atmospheric and exo-atmospheric operations.
Autonomy: Advanced AI for decision-making in space, where communication latency with ground control can be a limitation.
Contributions from Space Docking Technology:
High-precision sensors and docking mechanisms can evolve into orbital support systems for manned or unmanned space fighters.
Real-time data processing and telemetry systems developed for docking can enhance situational awareness and coordination in space.
5. Practical Applications for National Security
Space Supremacy:
A fighter capable of docking in space can serve as a base for anti-satellite operations, a critical advantage in a future where space will be a contested domain.
Satellite Servicing and Defense:
These aircraft could service Indian satellites, defend them from adversarial threats, or act as a deterrent to space aggression.
Enhanced Strategic Reach:
Combining space-based platforms with AMCA upgrades can enable India to project power across new domains, especially in areas where its terrestrial reach is limited.
6. Challenges and Roadmap
Technical Challenges:
Developing propulsion systems that work across atmospheric and space domains.
Ensuring thermal protection during atmospheric reentry.
Miniaturizing space systems for integration into a fighter-sized platform.
Roadmap:
Collaborate with ISRO and DRDO to integrate space docking technologies into defense platforms.
Use India’s existing expertise in hypersonic vehicles (e.g., HSTDV) to develop propulsion and aerodynamics for high-altitude operations.
Leverage international partnerships (e.g., Russia, France) for co-development of advanced space-military technologies.
Conclusion
India’s space docking capability opens a gateway to integrating space and aerial defense, potentially allowing AMCA to evolve into a 6.5-generation space-operable fighter. By prioritizing this niche and leveraging its growing expertise in both aviation and space technology, India could establish itself as a global leader in aerospace defense innovation.
Namaskaram Sir
Isro up and away jai hind
Team ISRO you are the forerunner in India's advancement. So we are proud of you.
Every Nationalistic Indian is proud of ISRO
All the best 👍
❤❤❤❤❤❤❤❤❤❤❤❤🙏🙏🏻🙏🏻🇮🇳🇮🇳🙏🙏🙏🏻🙏🏻Bharat maa ke mahan Beto purvjo garv karta hu Aap ke gyan sanskar sanskrrt bebilon tyag par ❤❤❤❤❤❤
India needs to boost it's private space sector. ISRO is a very slow monolith and does not invest and innovate fast enough and a result is really behind it's peers. Nuclear Energy is another problematic and slow sector that does not see enough vitality in innovation.
Let the private sector build a jet engine.
Private sector can always start on their own . No hassles .
Huge investment and uncertain market is a problem for them
Why don't you become like Elon Musk and built Rockets and Create SpaceX.. STUPID bag of Garbage
@@harris566 GE Rolls Royce SpaceX are able to do well in America, but same of similar initiatives in India will likely fail. Investment environment and growth is still terrible in India. There is barely any innovation and creation of new ground breaking technology coming out of India. India has always been a follower in technology.
@@san-chil ....
No doubt jet engine technology including metallurgy is complicated and need lot of investment more so when market is very limited competing with already established master engine makers .
WE SHOULD INVEST HEAVILY ON ISRO IF WE WANT TO BE SUPER POWER UP TO 2047
Jai हिंद.....
"Congratulations to ISRO on the successful launch of the docking station! This remarkable achievement showcases India’s growing prowess in space technology and innovation. Your dedication inspires the nation, setting new milestones in space exploration. Thank you for making us proud and leading India towards a brighter, limitless future in space!"
Somnath Sar Hamare Bharat ke Mere Bharat ke Samman hai
WOW, WOW! Very soon Bharat will be the greatest and bestest space power in the universe. Eat your heart out CN.
Isro must come to jet engine technology , because its need for our nation for 6th gen fighter jet
Isro priority is not currently making jet engines, that's responsibility on HAL.
A Jet engine is far more complicated than a rocket engine in simple technological Marvel.
@@badlav120 I don't agree with you, for spece rockets and other joints are designed and reserach for outer environment and on basis of other celestial body, like mars satelite, sun satellite, moon satelite or rover, landed etc.
These things process are not control by manually. Or by hand, these things are depend on design and wireless signal.
While a jet engine craft operated by pilot, and it fly only in earth atmosphere, HAL only need to crack how to increase most relevant fuel engine which have stealth technology.
Actually indian govt hire so incompetent scientist in hal who unable to make a proper engine yet.
@@ayushjaiswal9863 nah man rocket propulsion is far easier compared to jet propulsion, here's the thing there are too many elements when it comes to jet , metallurgy plays big role here because a jet engine has to work in different environments with change in temperatures rapidly , even if you invite best minds of India to create jet engine it will take us next 10 years for first test only, there's a reason why only handful of countries design jet engines 4-5 that's it .
Isro itself has yet to breach the 4 ton lift capacity. Don’t be so hard on DRDO! Even China hasn’t mastered engine technology.
Great ISRO
Proud of IRSO !!
🙏🏻
All the best wishes for ISRO Jay ISRO Jay ISRO Jay ISRO Jay barath Jay barath Jay barath Jay barath Jay barath Jay hind jay hind jay hind jay hind jay hind jay 🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳💪💪💪💪💪💪💪💪💪💪❤❤❤❤❤
Best wishes from Pakistan ❤️❤️❤️🙏🙏🙏🙏🇵🇰🇵🇰🇵🇰🇵🇰
Good questions
I smells something burning on western side of Earth.
This is the same journalist who shouted at the scientist briefing the press after a failed mission. I would have not let him come in a 50 km radius of any facility let alone sitting beside ISRO chief.
Also he is the same guy who had asked how many astronauts are travelling in Chandrayaan 2
This is inspiring news. And, If Bharat succeeds-as it will- perhaps we can bring back Serena Williams. That would be wonderful.
If India relinquishes its disputed territories with China (one of the powder kegs created by the British, such as the McMahon Line) and joins hands with China for development, India's technological advancements could reach the top 3 globally within 10 years.The quality of life for the Indian people would also improve significantly within 10 years.
😂😂
Just shut up chinwse bot.।। 😂😂
We are more than enough capable to do that alone.। 😂
👌👍🙏🙏🙏
"Why do we need to develop our own system?"
The whole India knows the ge engine case.
❤
Kindly share outcomes 🧿 if possible 🙏 Jai Hind 🇮🇳❤️💙🙏🧿
All the best isro….🇮🇳🐅🔝🔱⚜️🕉️🛐📈🚩
Religion has no role in science 😂😂
🙏🙏🙏🚩🚩💪🏾
🚩🚩🚩🙏🙏🙏🕉🕉🔱🔱🔱
@Adeynan may be muslim doesn't have but Hinduism more over science
@Adeynan this is Hindusthan not Pakistan or Bangladesh
❤️🌹
V good luck to ISRO
भगवान आपकी मेहनत को सफल बनाने में सहायता करे ❤❤❤❤❤ आपको हार्दिक बधाई ❤❤❤ इसरो ❤❤
best
Pallava Bagla interviewing Dr. Somanath feels undeserved; every time I see him, I’m reminded of his behavior on September 7, 2019.
Don't scream at ISRO scientists again! Nahin bhule hain.
A great topic for discussion which could have been improved by slides or timelines of launches. Also how this docking shall help in short run. While Dr. Somnath knows how to sit in front of the camera, the interviewer needs more polish.
Good luck ISRO.
😊😊
✌️
🇮🇳🇮🇳🇮🇳
🥰🥰🥰🥰
I was always thinking that if they could develop a way of refuelling a orbiting satellite and guse what, you hearded from the hourses mouth that they are developing that technology and not just that, they are also working on how to replace a battery on a orbiting satellite, it's good to know ISRO is progressing leaps and bounds.❤
Bharat mata ki jai
Is this a rendezvous style docking or just docking mechanism test
Sir some of ISRO fans are in their early or late seventies and they want manned moon landing in their life time. Also get fresh candidates from air force to prepare for further space missions.
Wishing successful endings of this mission.
🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🚩🕉🕉🕉🕉🕉🚩🕉🚩🕉🚩🕉🚩
I congratulate India on its success in space missions but I can’t understand why it’s not doing any improvement basic sanitation. Why Indian railways doesn’t have a proper sanitation system. Disgusting
🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳
Space docking is an effortless job, China completed the job within 2days in 2011, and China just stole and copied US tech. Why does India not do that? It saves time and money.
I want the model rocket in the background
This mission May not be challenging as a Chandrayaan mission but its objectives are as important as chandrayaan 3.
❤BV REDDY 5:12
India will launch on two satellites to test dockings.
the anchor is just focussed too much on prestige rather than the value of its engineering economic outputs
How Indian Government does give protection to ISRO from sabotage or harmful events as lots of enemies are there around India outside and inside?
Why they chose PSLV instead of SSLV
Sir send someone from ISRO to DRDO to develop our Kaveri engine for LCA. Delay is very painfull. Other countries are late to begin but they are faster than DRDO in engine development. China, Turkiye are best example. China is very advanced and Turkiye is also catching.
Timid of failure and slowed down Indian Space Science. Busy in oiling.
Great discussion and explanations by Dr. Somnath. Will certainly watch the launch and follow live. Good luck to ISRO 🙏
pls bring a new anchor NDTV pallav bagla is old now ..and a very rude anchor
Yes ....brother I too was thinking about that 😅.
This ISRO dude is so media limelight thirsty. Each and every PSLV launch or nut&bolt usage shows him addressing media bites. How does he sleep in night when DEC 2024 Bharat testing engine for less than 4 tonne payload which is not even meeting domestic requirement. While making merry with U$2billions yearly with army of 20,000 employees. USA engineers designed, tested and iterated without pocket calculator in those days but now in 2000s Bharat is using super computer, CAD and FEA software to accelerate design & development with exponential speed. Yet we he is happily beating chest and bragging on media about DOCKING gate. i would have rubbed my shoe on his face for clowning tax payers.
Comparing USA with india ????
India got freedom in 1947 only after loot and plunder by almost all europian countries .
In USA at some point of time was built by British with money looted from india .
Even after having technology india was not permitted to test our indigence nuclear and space technology by USA .
Can someone from ISRO kick some asses in DRDO, HAL?
Isro don't waste anything.
Don't use foreign technologies ok
It was a naaaarmaal flight.🤣🤣😂
Jai🚩sanatan🕉 dharm hindurastra🚩 bharat 🕉sanatani kattarhindu🕉🚩 हिंदुस्तान🚩bharatiya🚩 india🕉🚩⚡🪄🙅♂️💥🧨🙋♂️🌍🚀🙏👫💪🏹🗡🔱⚔️🛕⛳🎇🕯🐚🎊🎆🪔🔔🌠👌☄️🇮🇳✴️🕉🚩👍
At current rate, in no parallel universe will ISRO ever be able to come up to the level of NASA