 Ok ok ok ok asking whether he is going to join at the beginning only at 5.20 is he going to join ok ok ok ok ok ok ok Sudhakara Rupanisha now you please instead one is male voice in Hindi female voice in English they will welcome Priyam and you just tell them what the instruction comes from you the two voices will be there after that only you will go back to the normal program group you please tell them how you will instruct and then they will tell what they are going to talk after that it will be that yeah yeah yeah yeah yeah you tell the same thing to both of them but that video you have to stop at certain point now so that it can be taken ok ok ok ok thank you so it will go both in the as well as English then only start the video ok ok mission and the the the the and space agencies are looking forward to knowing more about the moon. If we talk about the second moon mission of the moon, the most powerful rocket of the moon in July 2019, was successfully launched by LBM-3. And today, after about four years, it is providing a very excellent quality data traveling in a circular orbit of 100 kilometers of the moon. In the beginning of the mission, it had been launched for a year, but due to a very strict injection by LBM-3 and because of the ocean management, the moon will remain active for a very long time. Till now, the moon has taken a picture of almost all the parts of the moon. It has a very important payload of OHRC, that is, Orbiter High Resolution Camera, which is the best camera of the moon, which is the best picture of the moon. Now, I will tell OHRC that they are telling you about the second moon mission of the moon. Now, you have heard about the moon missions of the moon by Mishra Ji. Now, let's go towards the moon. Hello. To connect with this great moon of the moon, you are the Prime Minister. I, Padma Dev Mishra, welcome all of you from the country with your co-host, Srimati Aarushi. On 23 August, today, with all the scientists of ISRO and all the international scientists, I am ready and content to see the historical moments of landing on the moon. Yes. In the history of ISRO's Gaurav Puri, another chapter is going on. And today, we all will be part of it. You are seeing all these visuals on your screen, the mission operation complex of ISRO, that is, MOCs, which is being presented by the Telemetry Tracking and Command Network on this track in Bangalore. These visuals are the countdown of the power descent, and the path to which the lander will land safely and softly on the south pole of the moon today. Let me remind you that right now, we are about 22 minutes away from the power descent. Those of you who have been connected for some time, please share their information. You can see this historical moment on ISRO's official website, Facebook, Twitter, and also on YouTube. Honourable dignitaries, delegates, scientists, media personnel, and dear viewers, a very good evening to all of you. We at ISRO welcome you to the live coverage of India's prestigious Chandrayanthri Mission's landing event on the lunar surface. These are the visuals from mission operation complex at ISRO's Telemetry Tracking and Command Network, this track situated in Nammabangaluru, Karnataka. I, Arushi Seth, and my colleague, Dr. Padamdayo Mishra, are your hosts for the evening and shall accompany you on the journey of the landing event from power descent start to touchdown. Today we shall be witnessing the final phase of the critical and most technologically challenging mission operations of Chandrayanthri where in the lander module we will be making a safe surface of the moon. These display screens show the countdown to the power descent start as well as the path that will be followed by the lander module. We are 18 minutes away from the commencement of power descent. India is at the brink of creating history as we all await with bated breath to witness the landing on moon's south polar region. Thank you, Arushi. If I may say that any mission of the universe is being carried out by any country, there is a great difference between the mission's consistency and consistency which makes a mission successful or unsuccessful. But neither are we tired nor are we lost. We have improved our previous weaknesses that the lander module will definitely make a safe and soft landing on the surface of the moon. Now for the information of all the viewers, we will present all the lunar missions till now. Yes, the first moon mission of the moon was successfully carried out by the PSLV rocket in October 2008. Chandrayanthri has already made history by searching for the water. This is the reason that all the scientists and space agencies are looking forward to getting to know the moon more closely. If we talk about Chandrayanthri, which is the second mission in July 2019, the most powerful rocket was successfully carried out by the LVM3. Four years later, it is producing excellent quality data in the circular orbit of the 100 km of the moon. In the beginning of the mission, it was carried out for a year. But due to the LVM3 very severe injection and mission management, Chandrayanthri will be working for a long time. Till now, Chandrayanthri is a very important pilot OHRC, i.e. Orbiter High-Resolution Camera which is the best camera which is sending pictures of the moon. Now I would like to invite you to tell us about Chandrayanthri. You have just heard about the lunar missions of the moon by Mr. Mishra. Let's go to Chandrayanthri, the follow-up mission of Chandrayanthri which has been designed to accomplish our mission goals. The primary objective of Chandrayanthri mission is the demonstration of safe and soft landing on the lunar surface. This demonstration is a critical aspect for ISRO's future interplanetary missions. In addition to this, the mission objectives also include of in-situ scientific experiments on moon's surface. Carried on the shoulders of India's heaviest rocket LVM-3 on the 14th of July, Chandrayanthri was placed in the precise elliptic parking orbit of size 170 by 36,500 km. ISRO, in its mission plan of following the incremental trajectory approach, carried a total of five earthbound manoeuvres. The fifth apogee raising manoeuvre which took place on the 25th of July placed the spacecraft in an orbit of 250 by 127,000 km. At the early hours of 1st August, the trans-lunar injection was carried out after which the composite module began the final leg of its long journey of nearly 384,000 km for its rendezvous with the moon. The TLI was a key step in the mission enabling the spacecraft to escape earth's gravitational pull and travel to the moon. An orbit of 288 by 369,328 km was achieved at the end of the trans-lunar injection. Yes, trans-lunar injection is a very important and difficult operation for any interplanetary mission. After this successful manoeuvre the moon was removed from Earth and a hyperbolic trajectory was carried out in the space of the moon. On 5th August, on 23rd August, the moon was placed in the elliptical orbit of the moon with the apogee raising manoeuvre of the moon. Like the TLI, the LOI is a very fragile operation. We must be aware of this that the absence of the apogee can be removed from a certain orbit. Otherwise, the apogee will be removed from the moon. After the successful manoeuvre of the LOI, the moon was replaced four times more. During this time, the moon was removed and made 160 km. In this entire process, the propulsion module was used for about 755 kg and the absence of the moon was reduced to about 850 m per second. After setting the lander module in a circular orbit of about 150 km, on 17th August, it was removed from the propulsion module. Once again, the lander module's orbit was removed from the circular orbit of 150 km and was installed in the elliptical orbit of about 130 km. During this time, it was confirmed that the four threatable thrusters of 800 Newtons could face any challenges during power descent. The lander module continued to operate so that all its systems could be verified and validated before the power descent. During this time, the moon and the lander module were also discussed and until now, the lander module was installed 21 times and was installed about 120 times. In this entire journey, the journey of about 55 lakh km until now, it has been confirmed that all the orbit manures should be done so that the landing site can be made in the orbital plane of the lander from the beginning of the power descent. That is true indeed. We have arrived at the crucial juncture wherein the orbit plane contains the desired landing site at the start of power descent. We are also happy to announce that the lander-imager camera is being received continuously. The demonstration of soft landing on the moon's surface is no ordinary feat due to the innumerable challenges and complexities involved. The lander velocity has to be killed from nearly 6048 km per hour without any aid from the thin and tenuous moon's atmosphere. The lunar dust at the time of landing and the craters and boulders scattered over the moon's surface make it further complicated to achieve this. The new and improved Chandrayantri design has been built after envisaging all the scenarios which the lander module can encounter. With several software improvements provisioned for full level redundancies, a plethora of special tests namely the integrated hot test, integrated cold test and lander leg drop tests were carried out for the lander module. The success of these tests has provided great confidence in the performance of all the onboard sensors, propulsion system and associated guidance, control and navigation algorithms. The key findings during the tests have enabled to improve the overall system performance. The largely unexplored south pole of the moon has been chosen as the intended landing site since there is a possibility to utilize and other minerals which would be vital resources for future explorers. Apart from continuing investigations pioneered by Chandrayan-1 and Chandrayan-2, the Chandrayan-3 mission will also provide invaluable data to the science community around the world. Let us give our viewers a glimpse on the configuration of Chandrayan-3 mission. Chandrayan-3's mission plan has been built almost like Chandrayan-2. It has also been established that Chandrayan-3 has been established by separating the rocket from the moon until it reaches the moon. We can say that this plan has been successful completely. However, the sensors and propulsion system of the lander module have been strengthened that during lander power descent Chandrayan-3 has also been able to complete the mission's main mission by coming out of the lander module. The main sensors of the lander have been tested by KARA, LASA, LHBC, LDV, and LHDAC. LDV is a new sensor which has been made out of its own technology. Its main task is to compute the lander's velocity in three steps. Lander's static position and velocity are very important. Liraup, i.e. laser inertial referencing and accelerometer package will provide this task during power descent. The trajectory generation which is very important for Chandrayan-3 mission because after every orbit it is established that the lander's mission objective should not be changed. I am going to tell you the orbit determination which tells the position and velocity of the lander very accurately there is a very difficult and difficult computation and estimation. It is important to know that Chandrayan-2's OHRC payload has given a very high damper which has increased the lander's side which will be very helpful in soft landing during power descent. Apart from the sensors Chandrayan-3 is equipped with the suite of sophisticated payload instruments. While Chandrayan-1 and Chandrayan-2 orbiter have provided abundant remote sensing data of moon equally important are the on-site localized measurements that provide ground truths. Lander and rover have payloads which are completely new and will perform in-situ analysis of lunar surface. The two spectroscopes on rover APXS and LIBS will actively measure the surface elemental abundances at the landing location and surrounding area. The lander carries a seismometer ILSA that can sense impact events and lunar quakes. The thermal probe charge will measure the temperature profile activity of moon's regolith. The Rambha payload will carry out lunar ionosphere studies while the laser retro-reflector array shall be a passive location indicator for future spacecraft equipped with laser altimeter. The propulsion module has not been left behind and an experimental shaped payload has been added to it as a value addition. It will help in understanding the nature and characteristics of outer-rich planets and will also aid in the future study of potentially habitable exoplanets. We are minutes away from the start of powered descent. The entire powered descent shall be carried out by the onboard autonomous landing sequencer or ALS which a series of instructions pre-loaded to the lander module. These instructions include the commands to be executed, data to be collected and analyzed and decisions to be made and executed autonomously throughout the powered descent. We have continuous flow of lander telemetry data from ISRO's deep space network IDSN 32 located in Beilalu, Bangalore The data is being acquired real-time by station and is flown to the mission operation complex through our communication links. In addition to it, we also have support from ESA and JPL DSN stations. There will be no ground intervention once the ALS takes charge. The preparation for today's event had started 48 hours before where in various pre-selections and uplinking of parameters for the autonomous landing sequence were carried out. The whole descent is divided into four phases the rough braking phase the attitude hold phase and the local navigation phase or the terminal descent phase. Yes, the attitude hold phase which is the second phase of the powered descent is a very important phase. During this 10 seconds during this small duration the two important sensors of the lander KARA and LASA will increase the lander's height. As soon as this phase is completed the lander will reach a height of 6.8 km above the moon. During the rough braking phase the lander velocity shall be brought down from 1,680 m per second to 358 m per second. The altitude will be brought down from 30 km to 7.4 km at the end of rough braking. Currently we can see the scientists are analyzing the lander data. Yes, we can see that the mission operation complex group and all the scientists are looking at the deep space network IDSN 32 is being provided by IDSN 32. And if we talk about the third phase of the powered descent which will be a fine braking phase in which the landing will be vertically at an altitude of just 800 m this phase will take about 3 minutes to complete and as soon as this phase is completed the lander's velocity will be almost heard. The scientists here at ISTRAC are glued to their systems analyzing all sorts of complex data. We are very close to the start of the powered descent phase. Yes, if we talk about the fourth and last phase of the powered descent which is called local navigation phase or terminal descent phase during this phase two engines will be shut down and the lander's sensor will send the speed and the speed to the inertial navigation. During this phase the lander will reach 150 meters in 131 seconds after this phase the lander will hover for 22 seconds. At this time the mission operation can be seen by everyone who are very close to the telemetry data. Right now we are just a few moments away from the power descent phase. The power descent phase is almost 30 seconds left and in this mission operation complex room IDSN32 has been made in connection with the lander The viewers the pivotal power descent has begun and the lander module is propelling towards the moon's surface along the intended trajectory. Yes, now we can see the beginning of the rough braking phase. During this rough braking phase the lander velocity shall be brought down 680 meters per second to 358 meters per second. The altitude will be brought down from 30 kilometers to 7.4 kilometers at the end of rough braking. All this in the duration of 690 seconds or 11.5 minutes. Currently the laser inertial reference and accelerometer package LIRAP is aiding in the navigation. Yes, now you can see that the lander has reached 100 kilometers horizontally and its velocity is 31 kilometers. The lander module has traveled a distance of approximately 228 kilometers. The complete downrange that will be traveled during this phase is 1113.5 kilometers. Yes. In this rough braking phase of 745 kilometers you can see that we have completed almost 20% of our journey. The beginning of the power descent can be said to be very sharp and sharp in which the lander has been removing his weight in an irresistible manner. The length of the lander module will reduce from 7.4 kilometers to 6.8 kilometers during the next phase which is going to be the attitude hold phase. We can currently see that the altitude of the lander module is nearly 31 kilometers. Now we can see the ground trace that the start of the rough braking phase has been done very well. You can see that the projected ground trace is moving ahead of the lander module. Till now it can be seen that the lander module has traveled approximately 376 kilometers. The mission operations team is analyzing the data. We can all see the seriousness and the concentration with which and every parameter of the lander module is being analyzed. The performance so far seems to be nominal. Since ALS has been activated there is no commanding done from the ground. All the data on your screen are coming in real time. In this mission the second and third order has been used for maintenance which will ensure the inertia, thrust and angle. During the entire descent there is no ground intervention as the ALS has taken charge. The preparation for today's event had started nearly 48 hours before wherein various pre-selections and uplinking of parameters were done. We can see that the vertical velocity of the lander module has been brought down. It is continuously coming down and the ALS had already been initiated one hour before the scheduled time of the power descent start. Following this the throttle-label engine electronics module, the TECHM, was switched on and lander was oriented to the favorable attitude. Yes, you can see on your screen that the lander module at the beginning was 1,680 meters per second nearly 1150 meters per second which is a very majestic beginning for this rough braking phase. Let me tell you that you can see on your screen that the lander module's altitude is gradually decreasing which is expected. Let's talk about the current altitude which is around 6 kilometers. You can see on your screen that the lander image display is continuously taking photographs of the moon's surface and that is also being streamed here. Currently the horizontal velocity has been brought down and the distance traveled is 574 kilometers. The current altitude is 27 kilometers as can be seen on the screen. Yes. Nearby, while completing half the journey in this rough braking phase the lander is moving ahead and is reducing its altitude. If we talk now the lander's altitude is approximately 27 kilometers from the surface of the moon which is around 26-27 kilometers. The next phase after the rough braking phase which will be for a duration of nearly 10 seconds the lander will be oriented such that both the altimeters will be looking exactly towards the moon's surface. At the end of this attitude hold phase height measurement update to navigation system will be given from the laser and carb and altimeters. Currently we are in the middle of the rough braking phase. Yes. If we look carefully after a 48-minute journey the lander is reducing his horizontal velocity while reducing his height of 24 kilometers till now we can say that the landing is completely nominal. Here we can see that the horizontal velocity is reducing. The altitude of lander from ground is currently 12 kilometers is currently 22 kilometers which is again going to be coming down and that is expected. For the viewers who have joined now we are in the power descent phase and we are in the rough braking phase which is the first phase of the power descent we have currently traveled a down range of 697 kilometers and the down range that has to be traveled during this phase is 713.5 kilometers. Yes. You can see that the lander's horizontal velocity is almost 720 meters per second almost we can say that 900 meters per second the velocity has been reduced. At the same time we can see the altitude of the lander which is just 17 17.8 kilometers from the moon's surface which is going to be around 7.4 at the end of the rough braking phase. After this phase we are going towards the attitude hold phase where we will be expecting sensor update from the laser and car band altimeters. We can see the visualization of the lander module moving towards the moon's surface. The current altitude is nearly 15.2 kilometers and the distance traveled is 754 kilometers. We can also see the image that the lander imager camera has been providing. Yes. During this rough braking phase the 4th throttle engine of the 800 Newton is giving a complete result. The horizontal velocity of the lander is decreasing. Till now the lander has almost completed 80% of its journey. After the rough braking and the attitude hold phase we shall be having the fine braking phase which will continue for nearly 3 minutes. The hold phase is being driven by the autonomous landing sequencer and there is no intervention from ground. Now you can see on your screen that the current altitude is around 10 kilometers from the moon's surface. Yes. Our Prime Minister Mr. Narendra we are connected to South Africa from Johannesburg. Yes we are privileged to have with us Honorable Prime Minister of India Mr. Narendra Modiji who has joined us from South Africa Johannesburg to encourage us. Yes. You can see the attitude hold phase has also passed the lander phase very easily and now the fine braking has begun. Now we can see the lander's altitude is about 5-10 kilometers which will be almost 800 meters after this phase. We can hear from the mission operations team that the sensors are performing nominally and we are currently in the midst of the fine braking phase which is going to continue for 3 minutes and the altitude is going to be reduced to nearly 800 meters at the end of this phase. Mr. Narendra Modiji told us that in about 3 minutes the lander's altitude will be almost 800 meters vertically and here the lander's horizontal vertical velocity even the downrange will be heard. We can see the visual of the lander module and we can see that the downrange traveled is nearly 831 kilometers. Yes. Now you can see on your screen that the lander's altitude has been reduced to 3 kilometers. We are very close to the moon's surface nearly 2.6 kilometers as we can see. Now you can see that the lander's altitude is nearly 1 kilometer. We are nearing the final phase of the power descent which is going to be the vertical descent phase or the local navigation phase. Yes. Now we are close to the final phase of the final phase of the final phase of the power descent. We have achieved very successful power descent. Now we are in the vertical descent phase which has started very well. A lot of applause indicates that till now the performance is very well. We are in the vertical descent phase 1. The altitude is being brought down from 800 meters and we are nearing and approaching the lunar surface. Yes. You can see on your screen that the lander's altitude is being reduced. Right now we are just above the landing site and during this phase after reaching about 150 meters the lander will hover for about 20 to 22 seconds. We are above the landing site the horizontal as well as the vertical velocity is now being constantly reduced and the lander module has begun its descent towards the landing site. Yes. You can see on your screen that the lander is completely following it. Right now we have reduced the height of about 200 meters. Now we can see that we are at a height of about 150 meters from the moon. We are approaching the vertical descent phase 2 which will have the lander module being above the landing site. Yes. You can see on your screen that after completing the second horizontal phase all these scientific studies are being done. Yes. If you look carefully again, the altitude is decreasing. Right now we are at a height of about 135 meters. The sensors that are updating the safety of the landing site. As expected, the re-targeting is going on and this is a very good signature for the lander. Currently only two engines are now being fired and we are nearly at zero velocity, vertical and horizontal. We were hovering and we are approaching the moon's surface. Slowly the weight of the lander is being reduced and we are at a height of about 50 meters. We can see the honourable Prime Minister, Srinarendra Modi who is here to encourage us and he is critically looking at the visuals. Thank you for applauding. Let us all wait to hear from the Secretary Department of Space and Chairman Shri S. Somnath. Thank you. The hard work of the entire ISRO community has come to fruition. Brother, hi. Sir, we have achieved soft landing on the moon, India is on the I request our Honourable Prime Minister to address us and bless us. Thank you, sir. I request our Honourable Prime Minister to address us and bless us. Thank you, sir. I request our Honourable Prime Minister to address us and bless us. Thank you, sir. I request our Honourable Prime Minister to address us and bless us. Thank you, sir. And our scientist friend has also said that India is now on the moon. Today, I have become a witness of India's new flight in space. Friends, I am in South Africa to take part in the British Summit. But like every other country, my heart was set on the moon. As the new history began, every Indian nation has fallen apart. Every family has started to get angry. I am also connected with my people, with my family, with my people. I send a lot of greetings to the people who have worked so hard for this moment for so many years. Utsa, Umang, Anand, and Bhavukta, for this wonderful moment, I also congratulate the 140 crore people. My family members have reached the southern part of the world, where there is no country in the world. Now, from today's point of view, the relationship between the moon and the moon will change, the story will also change, and the traditions will also change for the new generation. In India, we all call the earth a mother, and the moon a mother. Sometimes it is said that the moon and the mother are very distant. Now, one day, that too will come, where the children will do, the moon and the mother. Friends, on this joyous occasion, I would like to address all the people of the world, the people of every country and region. India's successful moon mission is not just India's alone. This is a year in which the world is witnessing India's G20 presidency. Our approach of one earth, one family, one future is resonating across the globe. This human-centric approach that we present and that we represent has been welcomed universally. Our moon mission is also based on the same human-centric approach. Therefore, this success belongs to all of humanity and it will help moon missions by other countries in the future. I am confident that all countries in the world, including those from the global south, are capable of achieving such feats. We can all aspire for the moon and beyond. I am confident that we can achieve such feats by other countries in the future. For the future, we have achieved many great and important goals. For the future of the sun, the moon is launching an ordinary moon mission. After this, thank God, one of the goals of the moon is that the nation is ready for its first human space flight mission. India is proving again and again that it is not the limit. Friends, science and technology is the foundation of the future of the country. That is why this day of today will always be remembered for the nation. This day will inspire us all to become a brighter future. This day will guide us to the path of our dreams. This day is the day to see how victory is achieved with the help of defeat. Once again, to all the scientists of the nation, I am very, very grateful and very happy for the mission of the future. He is here. Veeram Utuvel, congratulations to you. The associate director, Kalpana and the mission operations director, Shreya Khan. The satellite was built at your house and Shankar and the director. For happiness on behalf of team, it gives me immense satisfaction on achieving this goal as a project director of this mission. The entire mission operations, right from launch till landing, happened flawlessly as per the timeline and we became the fourth country to demonstrate the soft landing onto the moon surface and we became the first country to go near to the south pole of the moon. I take this opportunity to thank navigation guidance and control team, propulsion team, sensors team and all the main frame subsystems team who have brought success to this mission. I also take the opportunity to thank the critical operations review committee for thoroughly reviewing the mission operations right from launch till this date. The target was on spot because of the review process. I also thank the ISRO IR management right from Chairman ISRO, Director of RSE and all the center directors and IR ISRO officials. And finally, my thanks to the Chandrayanthri project executors spread across the ISRO centers. Thank you. Mission director Shreya Khan. It gives me immense pleasure to be part of Chandrayanthri and acting as mission director. I would like to thank each and every team member who has supported in carrying out all the mission operations flawlessly and I would like to thank my senior management chairman ISRO, Director of RSE, my senior colleagues and my team members for carrying out and supporting all the things in a carrying out in proper way. Thank you very much. Associate project director Kalpana. Good evening to all. This will remain the most memorable and happiest moment for all of us for our team Chandrayanthri. We have achieved our goal flawlessly. From the day we started rebuilding our spacecraft after Chandrayanthri to experience, it has been breathe in, breathe out Chandrayanthri for our team and starting from the reconfiguration to all the special tests and the assimilations we have conducted meticulously and this has been possible only because of our immense effort from our Chandrayanthri team and of course with the guidance from our Chairman ISRO, our directors and all our experts with all this it has been possible. Thank you one and all. Thank you for all the minutest help which has been provided from all the areas of departments. Thank you. Thank you. Chandrayanthri is a result of the work done by thousands of scientists, engineers, our staff and industries and support team across ISRO and other places, other institutions and Shankaran has been the lead of the center which integrated all of these efforts in the last so many years. So I request him to speak on behalf of all of you. Thank you very much for the affection that has been displayed today now. Today we have achieved what we set out to achieve in 2019. It was delayed by about four years but we have done it. When Chandrayanthri was launched, after the separation of the spacecraft from launch vehicle I said I will speak the rest of the things after the soft landing. So here I will take couple of minutes to tell the tremendous amount of effort that has been put in by the entire project team. When I say project team it is not just only the project director and associate project director of course they are the face of the project. They have been living, sleeping, eating, breathing Chandrayanthri for the last four years. They have been supported by such a large number of people particularly in their navigation, guidance and control area, propulsion system. This area the amount of effort that has been put by people the number of simulations that have been done the number of reviews they have gone through the amount of criticism they faced and overcome that it is like as a person who has been watching this for the last four years along with them my heart feels, my heart goes out for them the amount of effort is tremendous. That is what ISRO is all about, that is what our organization has taught us to do. Now today this success has put us even more high responsibility as the Honorable Prime Minister was telling because we have set the bar now so high. Nothing less than, nothing less spectacular than this is going to be inspiring for any of us in the future. So as the Honorable Prime Minister mentioned we will be now looking at putting the man in space putting a spacecraft around Venus and landing a craft in Mars work on all these activities are going on for few years and this success today will inspire us and will spur us to take those efforts even more strongly so that we will make our country proud again and again and again thank you very much for every one of you who have directly or indirectly participated in this mission encouraged us intentionally or unintentionally helped us in all for every one of you a big thank you because even a casual remark an unintended point can help a person who is striving to reach a goal the person who is making that remark may not have meant it that way but sometimes it can ignite that's why I said that even unintended help is very very very welcome and we are very very thankful for that thank you team ISRO for supporting all of us the amount of affection we received when this mission came into this final stage the number of people who gave us confidence that nothing can go wrong and this is going to be successful the amount in fact I was not that much confident because we have seen couple of times issues because I know very well as a person who has been doing in this domain for 36 years I know there are thousands of things any of that can anytime go wrong and derail but so many of the people because that I only see as the reflection of the effort we have put that people are so happy to see this effort and they want us to succeed it is not that they know that we are going to succeed the people want us to succeed so thank you very much for everyone for your love and affection we will continue to do our best and make our flag fly ISRO as well as India's flag fly high thank you very much Honourable Prime Minister called me and conveyed his greetings to each one of you you and your family for the wonderful work you did in ISRO so thanks to him for the support that he is giving to us for missions like Chandrayaan 3 and the missions that are in the offing I think that is a great word of comfort that we are receiving for pursuing the inspirational work that we are doing for the nation I want to tell you and I want to thank you also for each and everyone who prayed with us in the last many days who wanted this success to happen in ISRO I thank all those people all around the country and maybe beyond the country for their blessings and wishes and affection that he has given to each one of us for doing this work for the last so many years I want to specifically thank some senior people who have been standing with us especially the name of Kiran Kumasa and Mr Kamalakar, Sri Kotesh Rao they have been helping so much they were part of the team to help them to get the confidence and get the reviews done to ensure that nothing goes with any mistakes and of course this is not the work of us alone this is the work of a generation of ISRO leadership and ISRO scientist and this is the journey we started in Chandrayaan 1 continued in Chandrayaan 2 and Chandrayaan 2 craft is still working and doing a lot of communication and work with us and all the team that contributed to building Chandrayaan 1 and Chandrayaan 2 should be remembered and thanked while we celebrate Chandrayaan 3 and this is an incremental progress and definitely a great huge one it is and thank you so much for all the support and work that you have done