Good afternoon. My name is Abby, and I will be your conference operator today. At this time, I would like to welcome everyone to the Momentum Incorporated Third Quarter 2022 Earnings Conference Call. All lines have been placed on mute to prevent any background noise. After the speakers' remarks, there will be a question and answer session.
Thank you. Mr. Darryl Genovese, Vice President of Investor Relations, you may begin your conference.
Thank you, Abby. Hello, everyone. Welcome to Momentus' Q3 2022 earnings conference call. With me here today are John Rood, Chief Executive Officer of the company and Chairman of its Board of Directors as well as Jikon Kim, Chief Financial Officer. Each will provide prepared remarks.
Following these prepared remarks, we will take questions from analysts. In the interest of time, we would ask that you limit yourself to one question and one brief follow-up. Earlier today, we issued a press release and made a slide presentation available on our Investor Relations website, which provides an overview of our business and financial highlights for the quarter. You can download a copy of the release and presentation slides at investors. Momentus.
Space. During today's call, we will make certain forward looking statements within the meaning of Section 27A of the Securities Act of 1933 and Section 21E of the Exchange Act of 1934. Forward looking statements are predictions, projections and other statements about future events that are based on current expectations and assumptions and as a result are subject to risks and uncertainties. Many factors could cause actual future events to differ materially from the forward looking statements in this communication. You should listen to today's call with the understanding that our actual results may be materially different from the plans, intentions and expectations disclosed in the forward looking statements we make.
For more information about factors that may cause actual results to materially differ from forward looking statements, please refer to the earnings press release we issued today as well as the company's filings with the Securities and Exchange Commission. Readers are cautioned not to put undue reliance on forward looking statements and the company specifically disclaims any obligation to update the forward looking statements that may be discussed during this call. Please also note that we will refer to certain non GAAP financial information on today's call. You can find reconciliations of the non GAAP financial measures to the most comparable GAAP measures in our earnings press release. None of these non GAAP financial measures is a substitute for or superior to measures of financial performance prepared in accordance with GAAP.
With that, I'd like to turn the call over to our Chairman and Chief Executive Officer, John Rood.
Thank you, Daryl. I'm delighted to talk to you about the progress we made during the Q3 and our plans for the future. I'll provide some comments activities during the Q3 and the subsequent period leading up to today's conference call. And then I'll spend some time discussing our plans for the remainder of the year in 2023. After I make my comments, our CFO, Jie Kang Kim, will take you through the Q3 financial highlights and our financial outlook.
So turning to Slide 3. I'd like to reflect on the substantial progress that Momentous has made over the past 15 months since our de SPAC and Emergence as a public company listed on the NASDAQ exchange. As a result of hard work and determination, We're a much stronger company today than we were back then. We've strengthened engineering and operations capabilities. We put in place a truly impressive group of leaders from our technology development, engineering, program management, manufacturing and operations and Supply Chain Operations composed of industry veterans with decades of experience at companies that are leaders in the space and aerospace industries.
We've also recruited outstanding talent below the top of the organization chart down to the individual contributor in our engineering ranks. We streamlined our engineering and development organizational structure to support more rapid development of our spacecraft with greater rigor. We've made substantial progress putting in place more mature documented engineering processes to develop, assemble and test our spacecraft and its components, including resolving issues in a disciplined and repeatable manner. The results of the improvements that we've made are evident as we compare our current experience with the next spacecraft that we plan to fly called Viguorad 5 to our recent past experience with the last spacecraft that we launched called VigorIde 3. I'll speak to the specifics of our VigorIde 5 ground test program in just a minute.
But I can summarize by saying we encountered far fewer issues during the assembly and testing of Vigorate 5 than we did during the production of VIGORITE III and we're resolving the issues that we do encounter faster. We've increased our confidence in the reliability of the Vigoride Orbital Service Vehicle. We learned a lot during the first Vigoroid mission in May, both from things that went as expected and from areas that didn't operate as planned. So while the environment in space is harsh and unforgiving and operating there is notoriously difficult, based on lessons learned from our first mission, enhancements made to our integration and testing processes and improvements made to the vehicle itself, we have higher confidence going into our second mission that we had ahead of our first mission. We are pleased with how customer interest has been trending since our first mission.
We're currently negotiating contracts for follow on missions with 2 of the customers who flew satellites with us on our first mission in May and want to establish long term relationships with them. We've also received interest from new customers since that first mission just a few months ago, where we're negotiating contracts as well. As I mentioned on our last earnings call, Momentous has begun bidding on contracts with the U. S. Government departments and agencies, Which wasn't realistic until we put our historical regulatory difficulties behind us.
We reached baseline compliance with our National Security Agreement this spring and received all necessary licenses and regulatory approvals to fly to space, which we did for the first time in May of 2022. Going forward, our licensing processes should be more streamlined compared to our first mission. Momentous will no longer need to Apply for a separate FAA payload determination before it can fly to space. Momentus also will not need to reapply for NOAA licenses Unless we make changes to Vigorites cameras or planned operations for several more flights, which we don't currently intend to do. The only application that we needed to submit for our next flight was to the FCC for radio spectrum licensing.
The simplicity of our regulatory process relative to last time is a reminder of the progress we've made improving the company's relationship with the U. S. Government. It took an enormous amount of effort to get here. And so we're glad to put our historical regulatory difficulties behind us, so we can focus on developing our technology.
We've improved our IT systems, tools and processes for better cybersecurity and a better user experience that should improve workforce productivity. We've also improved our finance and accounting tools and processes. With these improvements and more like them, we believe that Momentous is now a sturdier, sounder company than it was at the time of our de spec and we think the improvements we're making should boost investor confidence over time. To become the stronger space infrastructure company that we are today, We first had to take a focused approach to creating disciplined processes within Momentous as we went from a startup to a public company in a short period of time. I'll now turn to Slide 4.
I'll now discuss operational highlights from the quarter. We conducted our inaugural mission on May 25, utilizing 2 ports on SpaceX's Transporter 5 mission that used a Falcon 9 launch vehicle. On one of these two ports, we flew our Big Red III orbital service vehicle, which you can see in the picture just prior to its separation from the launch vehicle. On the second port, we flew a 3rd party deployer system from a partner. Recall that at the end of the second quarter, Momentous had deployed 3 customer satellites, including 2 from VIGRIDE 3 and 1 satellite from the 3rd party system.
During the Q3, we deployed 5 more customer satellites from VigorIde 3 and recognized a small amount of revenue related to these deployments. Avigorate 3 has now deployed 7 of the 9 customer satellites it carried to space. When combined with the 1 satellite deployed from the 3rd party system, Momentous has now deployed a total of 8 customer satellites so far. The Vigurite 3 mission is still underway. While we continue efforts to deploy the last two satellites of 9 that were on board, But we're realistic about the prospects given the low power situation on Big Rig III.
As I stated on previous conference calls, While we carried some customer satellites to space, a primary objective of our inaugural demonstration mission was to test Vigorate on orbit, Learn as much as possible from any issues encountered and incorporate lessons learned into future Big Rig Vehicles. Turning to Slide 5. Our engineers and technicians have been busy applying lessons learned from BigRide 3 to our next generation Vigride 5 vehicle in preparation for our planned second launch in a little over a month. For instance, During the Q3, the Momentous team worked closely with the producer of our solar arrays to conduct an expanded testing campaign on the array that will power VigorIde 5. Recall that during our inaugural demonstration mission in May, Vigoride 3's deployable solar arrays did not operate as intended and that we quickly identified a mechanical issue with a hold down bracket and connector pin as the root cause of the anomaly.
The enhanced test campaign that the team conducted during the Q3 was aimed at avoiding similar issues in the future. In a minute, we'll play a video of the simulated zero gravity solar array deployment testing that the team conducted this quarter. In addition to the solar array issue, we've also identified the root causes of the other issues experienced during our inaugural mission and we have made changes to address these issues ahead of our next mission. VigorIde 5 is a next generation vehicle from our Block 2.2 configuration, while VigorEye 3 was part of the prior Block 2.0 configuration. The Block 2.2 configuration was designed to be much more capable compared to Block 2.0 and includes improvements such as A modular payload bay that allows us to swap customer payload capability for additional propellant to enable longer duration missions, a more efficient structural design and enhanced payload hosting capabilities and our next generation Microwave Electrothermal Thruster or MET, which is designed to be more capable than its predecessor that flew on BigRide 3.
The latest generation MET or microwave electrothermal thruster has been through a substantial ground test campaign. For example, in October, we completed a ground hot fire test of the next generation MET propulsion module that will fly on Vigorate 5. On the right side of this chart is a photograph of the MET firing during this test. We're looking forward to testing the MET in space. While we have incorporated many upgrades into the VigorEye Block 2.2, one thing that hasn't changed is that we continue to use watermelon, which makes our vehicles safer and more environmentally friendly than competitors that use volatile and hazardous chemical propellants.
During the Q3, we also completed ground vibration testing of the full Vigorad 5 vehicle, which simulated the environment that it will encounter on the SpaceX Falcon 9 launch vehicle. Then a couple of weeks ago, we completed thermal vacuum testing, which simulates the environment in space and concluded our robust Vigrad V environmental testing campaign. Customer satellites have been integrated onto the Vigraad V and we conducted our flight readiness review about a week ago. Overall, I'm pleased to report we are on track for our next VigRide launch on the SpaceX Transporter-six mission targeted for December. We plan to ship the vehicle to its launch site in Cape Canaveral, Florida in the coming days.
We're excited to see BigRide 5 travel to space next month and are eager for the opportunity to test its performance on Orbit. Turning to Slide 6. Here's a quick video of the simulated 0 gravity solar array deployment testing that the Momentous team conducted this quarter in partnership with our solar array vendor. It's quite difficult to simulate a zero gravity environment here on earth and requires specialized test equipment to carefully adjust for gravitational forces. Since we experienced issues with deployment of the Solar Rays in May on our initial Vigarette mission, we added an enhanced test campaign for follow on missions and installed new sophisticated test equipment at our headquarters in Silicon Valley in collaboration with our Solar Ray vendor.
In the video taken in the clean room of momentous headquarters, you can see the solar array that will fly on our next mission attached to the VigRite 5 spacecraft. In collaboration with our vendor, we used the new test apparatus to successfully perform this test with the aim of ensuring that the issue that we experienced on Vigoroid 3 with the hold down mechanism does not repeat on Vigoroid 5. During the test, you can see that the array opens cleanly. This is one of several additional tests that we added to our enhanced ground test campaign for BigRite 5, which increases our confidence that the solar array will function properly on orbit. Under the principle of testing like you fly, we conducted this test with the VigorEye vehicle and solar array that will be launched on our next mission.
I would also point out that Vigoraj 5 and subsequent vehicles in our Block 2.2 configuration Incorporated different hold down mechanism than was used on VIGORITE 3. So the part that was primarily responsible for the low power situation on VIGORITE 3 is not part of our future plans.
Turning to Slide 7.
This slide has some great pictures that illustrate the progress we've made in preparing the BigRide 5 spacecraft for its operation in space. The picture at the top left shows the spacecraft in our clean room in San Jose, California when we were just beginning to assemble it. The other photos trace its journey through stages of testing and preparation for launch. Customer payloads have been integrated onto VicRoad 5, which you can see in the top center picture and in the two pictures on the far right. These include a 3U CubeSat from Kosmosus that evokes the spirit of innovation from NASA's Voyager mission to explore the solar system as well as a hosted payload for Caltech with a cutting edge experiment on energy transmission, which can be seen on the upper deck.
This hosted payload mission will allow us to demonstrate our capability and potentially grow our hosted payload business with other customers. Turning to Slide 8. This slide provides an overview of our plan for our 2nd Vigurite demonstration mission. The mission plan calls Vigride 5 to travel to low earth orbit on the SpaceX Transporter 6 launch, where it will be ejected into a sun synchronous orbit at a little over 500 kilometers altitude or just over 300 miles above the earth. After separating from the launch vehicle, VIGORAD 5 is slated to go through a disciplined sequence of startup procedures, including powering up, deploying its solar panels and establishing communications with the ground stations we will use to control the vehicle from the Momentous Mission Operations Center in San Jose.
While we plan to deploy CosmoSys' satellite after Vigorad completes its startup sequence, Vigoride 5 will host Caltech's payload for the entirety of its mission. We plan to operate Vigoride 5 in space through powered flight and test its ability to maneuver to different orbits. Over the course of the mission, we plan to operate and monitor the performance of the spacecraft and its subsystems to inform future design iterations. Of note, during this mission, we plan to fully test our microwave electro thermal thruster propulsion system that uses water as a propellant in space. At the conclusion of the mission, we plan to put VigorEye 5 into a low orbit so that it reenters much more rapidly than it naturally would and burns up on reentry.
We aim to do our part slow the accumulation of orbital debris, which as I'll discuss is a significant threat to space sustainability that is finally beginning to receive some welcome attention from government regulators. As was the case with our inaugural mission, our intention is not just to perform the planned flight demonstration mission and meet our objectives, but also to find issues that we can correct on future flights. We plan to learn from any anomalies we experienced during the mission and apply the lessons learned to improve our technology going forward. We remain mindful of the fact that you test not just to confirm your expectations, but equally to find opportunities to improve your design. Turning to Slide 9.
As I mentioned, DigRide 5 will feature a hosted payload with cutting edge A team of researchers is working to deploy a constellation of modular spacecraft that collects sunlight, transform it into electricity, then wirelessly transmit the electricity to wherever it's needed on earth, including the places that currently have no access to reliable power. Once operational, the Caltech team's vision is to revolutionize the nature of energy so that you can send it wherever you need it. The Caltech Demo Mission 1 to be hosted aboard VigorEye will feature 3 foundational experience for this program to test and validate: Solar Cell Performance, Deployment Mechanism Performance and Thirdly, Beam Focusing and Steering. In the rendering on this slide, you can see where each is positioned on the Vigorite 5 upper deck. We're proud to fly these payloads for Caltech in support of their space based solar power project.
So turning to slide 10. This slide provides an overview where we stand in production of our early vehicles. With the completion of VIGORIDE 5, we've now produced 4 complete VIGORIDE vehicles. VigorIde 1 and VigorIde 2 are fully built and tested and remain in storage, while VigorIde 3 is in space. I already discussed the status of VigorIde 5, but this chart provides a nice visual of its comprehensive ground testing campaign.
We continue to stress the importance of using ground testing, not only to validate our designs and engineering progress, but also as a critical part of a disciplined approach to put us in the best position possible for success on Orbit. Beyond Vigorad V, we plan to launch Vigorad VI on SpaceX's Transporter 7 mission currently targeted for February 2023, although the schedule is tight. We have also signed launch service agreements with SpaceX to reserve space for Vigride 7 on Transporter 8, which is currently targeted for May 2023 and for BigRide 8 on transquarter 9, which is currently targeted for October 2023. In all, We plan to be on every SpaceX rideshare mission between now and the end of 2023.
Turning to Slide 11.
This slide shows a few commercial highlights from the Q3. Luxspace is a Luxembourg based subsidiary of German satellite manufacturer OHB. Momentous plans to provide payload hosting services to the Luxspace Triton X small satellite with Vigoride in 2023. Luxe Space has satellites in orbit today and this contract represents a share gain for Momentous. We also signed a contract modification during the Q3 with NASA's Kennedy Space Center.
Under this contract, Momentous plans to transport 2 1.5u NASA satellites to a custom orbit for its LIGHTED or LITED Space Weather Research Mission in 2023. We're thrilled to support this important scientific mission for NASA. Signing this contract marks a big milestone in our effort to grow into the government services business more broadly. As we stated on our last earnings call, We are ramping up our effort to win more government business now that our historical regulatory issues are behind us and we view this NASA contract as an important step along that path. We are fully committed to validating NASA's confidence in us on this upcoming mission.
Finally, we signed a memorandum of understanding with Sidus Space this quarter, under which we plan to provide transportation and payload hosting services. We continue to believe that space infrastructure is a growing exciting market and we're a leading player in it with a lot of opportunities still ahead. Turning to Slide 12. While our early missions are focused on transporting new satellites and hosting them on orbit, We are continuing to invest in R and D to give Vigurite the capability to rendezvous with satellites that are already in space and to repair, refuel and or de orbit them. We view in orbit satellite servicing as a substantial opportunity for us and we're starting to see real signs of this market's emergence.
For instance, about 6 weeks ago, the FCC adopted a new rule that will require satellite operators to remove their satellites from low earth orbit within 5 years following mission conclusion. Prior to this, the FCC did not have a role requiring satellite operators to de orbit their satellites, Although it had previously issued a guideline that they do so within 25 years following mission conclusion. Momentous applauds the FCC for taking a proactive approach to resolving the short and long term challenges of orbital debris, and we hope that other global regulators will follow suit as orbital debris is a large and growing threat to space access and space sustainability. For instance, the European Space Agency tracks approximately 26,000 pieces of space debris, which includes about 2,000 discarded rocket engines, 3,000 defunct satellites and approximately 21,000 unidentified debris objects and fragments, equating to nearly 9,000 metric tons or £20,000,000 of man made debris. And this is just what's explicitly tracked.
There are far more debris objects and fragments that are not explicitly tracked, including 34,000 that are roughly the size of a teapot, nearly 1,000,000 that are roughly the size of a baseball and over 100,000,000 that are roughly the size of a coin. Any one of these could seriously damage a satellite in a collision as they are traveling many kilometers per second and a collision could create thousands of additional pieces of debris in orbit. With a number of satellite deployments growing rapidly, this debris problem is expected to get worse. The new rule from the FCC acknowledges the problem and we expect will create significant customer demand for satellite deorbiting services. NASA and the U.
S. Defense Department have also been letting contracts for studies and demonstration missions for work on addressing the problem of growing orbital debris. Satellite deorbiting is a complex mission, but I'm proud to say that Momentous anticipated a more active stance on debris removal from regulators and has been investing in developing this capability for several years. We think our early investments provide us with a competitive advantage over others who are just beginning to think about this problem now. And indeed, we are already receiving incoming requests for proposals from potential customers on de orbiting of satellites or potentially entire constellations, each with hundreds of satellites.
It's too early for us to quantify the opportunity with much precision, but if you consider that about 2,000 satellites will be deployed this year And the annual deployments are forecasted to roughly triple by 2028 according to Deutsche Bank. It's not hard to envision a scenario in which thousands of satellites need to be deorbited annually within the next decade, creating a multi $1,000,000,000 addressable market. Again, we can't forecast this with much precision, but we view it as a substantial opportunity for Momentous. Turning to Slide 13. As I said in our prior earnings call, We have developed and are currently implementing a plan to reduce our operating costs in order to provide us runway to conduct more demonstration missions and place additional customer satellites in orbit with the cash on our balance sheet.
We continue to estimate that with the reductions we're making, the cash in our balance sheet should carry us through the end of 2023, which should allow us to perform at least 3 more missions with Vigarite before we need to access the capital markets. We plan to be opportunistic about raising capital between now and then, including potential issuances under the $50,000,000 ATM program that we established in September. We believe it's prudent to plan to extend our existing cash rate runway given the difficult state of the capital markets. While we are focusing our internal R and D spending, most particularly on the foundational building blocks of our long term success To stretch our balance sheet cash, we are also increasing our focus on bidding for government programs at NASA and Defense Department Organizations. We see significant opportunities to gain government funding for our R and D efforts and technology development, while supporting these critically important missions of our government.
Turning to Slide 14.
I would like to conclude my prepared remarks with a few points on why Momentous is an attractive investment. First, the market that we serve is an attractive one. Access to space is improving because the cost to put a given capability on Orbit is declining driven by economies of scale from larger launch vehicles, increased price competition between launch providers that is forcing them to become more efficient through various means, including reusability and satellite miniaturization. As a result of progressively lower costs, the number of satellite deployments is growing and these satellites need additional services once they get to space. Both the private sector and the public sector recognize this, which should drive investment by both in space infrastructure and services And we are already seeing this start to play out.
In addition, the regulatory environment appears increasingly favorable with new FCC with the new FCC deorbiting rule I mentioned being an important example. The Space Foundation estimates the size of the space economy at about $469,000,000,000 today and Morgan Stanley's space team expects the market to more than double to over $1,000,000,000,000 by 2,040. Bank of America's Aerospace and Defense team forecasts even faster growth. Overall, we view the market for the space economy and our segment of it as attractive. 2nd, Momentous is well positioned to capture a portion of this growing market.
Investors sometimes suggest that there is a lot of competition within in space transportation, but only a few companies have built and Launched Orbital Service Vehicles or OSVs. While others have aspirations, we are already flight testing our Vigorate OSV and have already deployed 7 customer satellites from it. Beyond our in space transportation service, We offer payload hosting services and next month we have a substantial customer Caltech on that mission. We believe our power generation capabilities and size and flexibility of our configuration give Momentous a competitive advantage in this segment. Meanwhile, We continue to build on our service offering and plan to introduce in orbit services such as satellite maintenance and refueling and Orbital Debris Removal later this decade.
Our relationships with launch companies such as SpaceX are strong. Moreover, Vigorize is launch vehicle agnostic, so we should benefit from increasing launch capacity and associated price competition amongst launch providers over time. When you add it all up, I think Momentous is well positioned among competitors. In addition, when you think about who our competitors are, most of them are privately held, meaning there aren't many ways for public equity investors to invest in space structure. 3rd, we remain confident that this can be a very profitable business once we get to scale.
Our costs exceed revenue today as we're still early on the learning curve and are producing and flying pig rides at a low frequency. Furthermore, because we're still demonstrating our capabilities, we are only able to fly a few customers on each Vigoraj mission. Once we prove the vehicle is reliable, we expect capacity utilization and revenue generation per Vigoride mission to increase. At the same time, we expect to be able to produce Vigorides more efficiently as a result of learning in economies of scale. As a result, we think profitability should improve as revenue grows.
Additionally, we expect a discrete margin boost once we And finally, Driving all of this is our highly experienced and capable leadership team that I believe to be the most credible among new space companies. Overall, the combination of a growing and innovative space economy, favorable demand outlook for the services we provide, competitive advantages relative to other in space transportation and infrastructure providers, most of which are privately held and potential for margin improvement with learning and scale make Momentous an attractive investment. The future is bright for Momentous, particularly compared to where we sat just 15 months ago at the time of our de SPAC. We are driving this business forward based on the strategy that was put in place about a year ago, as is evident by my comments today on hiring to improve our capabilities and better focusing our R and D spending on that which is most critical to our success. I am pleased with what we were able to accomplish this quarter, including the deployment of 5 additional customer satellites, implementation of VigorIde 3 lessons learned on to VigorIde 5, our progress towards conducting the VigorIde 5 launch next month, our customer contract with NASA and the initial implementation of our cost reduction plan.
I'd like to thank our dedicated team for getting us here. I would also like to thank our customers and investors for their continued support. I'll now hand the mic off to our CFO, Jeet Korn Kim, and then we'll take your questions.
Thank you, John. Before I discuss the Q3 financials, I'd like to take this opportunity to thank the momentous team for their hard work and dedication. Turning to Slide 15. Our 3rd quarter results reflect our ongoing progress and investments to further our technology and business model. We have cumulatively signed contracts for approximately $43,000,000 in backlog or potential revenue as of October 31, 2022.
The breadth of these signed contracts span across 19 companies in 14 different countries. In general, our customers have the right to cancel their contracts with the understanding that they could forego their deposits and milestone payments. If a customer cancels a contract before all of the payments are made, the resulting revenue will be less than the full value of the backlog. Recall that our reported backlog includes firm orders as well as options. These options give our customers flexibility to opt into an available launch slot without requiring a separate agreement.
Our total backlog declined by $12,000,000 relative to the $55,000,000 we reported in Q2. This decline was primarily due to the expiration of options and options that we expect to expire unexercised. In contrast, our firm orders backlog held steady this quarter. We ended Q3 with non restricted cash and cash equivalent of $82,000,000 which we continue to believe should carry us through to the end of 20 23 as John described. We invested approximately $28,000,000 in cash during Q3, approximately $3,000,000 higher compared to our Q2 cash burn, but in line with our announced cost reduction plans.
Q3 cash investments included $3,000,000 in debt amortizations as well as the final $5,000,000 payment to settle a legal matter with SEC. We ended the quarter with approximately $18,000,000 in outstanding gross debt. During Q3, we recognized $129,000 of revenues and $115,000 in gross profits, primarily related to the V3 as it continued to deploy customer satellites, fulfilling performance obligations to our customers. I would remind you that majority of our Viguride manufacturing costs and launch costs are accounted for as R and D, given that the Viguride is still under development. We expect gross margins to decline once Viguride development is complete that we enter into production phase.
In the Q3, we generated approximately $22,000,000 in losses from operations. On a non GAAP basis, our adjusted EBITDA was a negative $16,000,000 which is approximately $2,000,000 better sequentially from Q2. Please refer to the earnings press release issued today for the reconciliation of adjusted EBITDA to GAAP net income. Non GAAP SG and A expenses for the Q3 totaled approximately $7,000,000 approximately $1,000,000 lower than the prior quarter. Non GAAP R and D expenses for the Q3 totaled approximately $10,000,000 also approximately $1,000,000 lowered sequentially.
We ended Q3 with approximately 84,000,000 shares outstanding. I will now hand the call back to Derek.
Thank you, G Khan. In a moment, we will move on to the question and answer portion of our call. I would like to remind participants that all disclaimers outlined at statements and the technology underlying our planned service offerings. Operator, would you please remind participants how to enter the queue?
Star and the number one on your telephone keypad. We'll pause for just a moment to compile the question and answer roster. Your first question comes from the line of Edison Yu from Deutsche Bank. Your line is open.
Hey, everyone. Thanks for taking the questions. I just had 2 on my end. Curious, I know you talked a lot about during the presentation on the new FCC rule. And can you just talk about kind of what kind of capabilities that you can offer and maybe give a kind of brief illustration of how that might look.
And I know you're not really Quantifying the market opportunity, but this seems like a pretty big trend.
Thanks for the question, Edison. I agree with you. The new FCC rule that requires operators of satellites to remove those satellites from low earth orbit within 5 years' fall admission is a major opportunity for us. Prior to this, as I mentioned, there was no rule. The FCC had a guideline That operators de orbit their satellites at 25 within 25 years after mission conclusion, but it was just a guideline.
It was not a binding rule that the FCC was planning to enforce. The new FCC rule creates a significant demand for satellite de orbiting. Satellite deorbiting is a complex mission, but I'm proud to say that Momentous anticipated that increased regulation and we've been investing in that capability for several years. The type of capability that you need is to be able to do what is called rendezvous and proximity operations meaning come up very closely to another satellite, Rendezvous very carefully. And then in our case, our plan right now, we've been investing in the capability to do Rendezvous with proximity operations.
We also intend to add a robotic arm to VIGORI, which will enable us after coming up very carefully alongside the satellite and to grab a hold of it or to attach to it, either to service the satellite if the intent is to do something like Refuel it or repair it. But for the what we were just discussing the FCC rule, it would be to de orbit it. And really that would involve grappling or grabbing hold of satellite and proceeding to tug it to a lower altitude where it could reenter and burn up upon reentry. And now, As mentioned, it is early for us to precisely quantify the opportunity really with any precision. But if you consider Under Deutsche Bank's projections, about 2,000 satellites will be deployed this year alone.
And if according to Deutsche Bank, the annual deployments are forecasted to triple by 2028. So you can see a scenario with that volume of satellites that need to be de orbited during the next decade that I think as a minimum, we expect that's going to be a multi $1,000,000,000 addressable market that's created. So thank you again for the question, Edison. And we certainly think that Momentous is very well positioned to take advantage of this regulatory change.
Understood. Second question, different topic. There's been some changes on the SpaceX transporter pricing. Do you have any kind of initial thoughts related to that? What kind of impact they may have?
Yes. SpaceX is introducing a new interface for rideshare missions in 2024. And you're right that there is also a new pricing structure that will go along with it. For us at momentous in the very near term, As I mentioned in the call, we've signed launch services agreements for the next few SpaceX transport The one that will go that's targeted for December of 2022 and then 3 that are targeted for February, May October of 2023. Now since we've signed agreements for those, our pricing won't immediately be affected by the changes in the SpaceX pricing structure.
For Momentous that would begin in 2024. Under those changes though, There are some changes that we're still assessing with respect to the interface, but we're in very close dialogue with SpaceX are working with them to better understand some of the technical interfaces that have to be adjusted. But We do think that while there will be some higher costs that SpaceX is charging that again for us would begin to affect us in 2024. Unfortunately, there's been a lot of cost inflation in today's macroeconomic environment. And so we don't think this is unique to space transportation companies or Momentous.
Once we start to experience those higher launch costs, we will attempt to pass along those higher launch costs to our customers To the degree possible. And importantly, our competitors will feel the same upward cost pressure that we do with respect to flying on things like the SpaceX transport missions on Falcon 9 rockets. As we look a little further out though to the Starship introduction By SpaceX, we would expect our launch cost to begin to decline again. This I would say also another dynamic that I'm sure you're tracking There are other providers of space launch services, ABL, Relativity, Gilmore Space, etcetera. And these other space launch companies and a whole host of new entrants are going to increase competition and that increased And that increased availability and competitive pressure we think is going to keep launch costs low.
And therefore, Since we are launch vehicle agnostic at momentous, it will give us other options for how we can fly our customers to space.
Appreciate the color.
Your next question comes from the line of James Ratcliffe from Evercore ISI. Your line is open.
Thanks. Regarding the sort of the competitive environment, can you talk about what you're seeing in terms of customer responses or views of the small rocket segments as it seems like a number of providers there struggling. And just generally, We've talked about launch costs and the like. How important to the longer term business case is the success of Starship? Line.
Thanks for the question. I appreciate it. I'd say that The launch vehicle market right now of course SpaceX is the largest player in the rideshare market or the market targeting very small launch vehicles. I think the customer views, the satellite producers views of the small launch providers that we're seeing. They're number 1, what I hear is from these customers, they're looking for some more flight heritage From some of them or they're looking with expectation at the plans that new launch providers are have.
But they do want to see those missions become more routine, see a little more flight heritage developed In many cases, I do think there is an important dynamic though that's going on in the launch vehicle market because of all that competition and that it's reducing launch costs. You saw McKinsey put out a study at the World Economic Forum in the summertime If memory serves according to Mackenzie, launch vehicle costs have come down by over 95% in the last 20 years. We're seeing projected costs go down. And today, our estimates are for a dedicated small rocket, If you were a small satellite company that for a dedicated small rocket launch to a final orbit, it would be over $70,000 per kilogram On average, with a rideshare on a large rocket using the Momentous Orbital Service Vehicle, We can be under $15,000 per kilogram. And so that gives a substantial cost advantage to rideshare and Rideshare with a Momentous Tug or Orbital Service Vehicle that can take you to your final destination.
Thank you again for the question.
Thank you.
Your next question comes from the line of Chris Mackie from Singular Research. Your line is open.
Yes, hi. Let's see. It looks like you experienced some issues in the early Vigarod mission. What did you learn from that?
Well, thank you for the question. The environment in space is notoriously harsh and unforgiving, as I mentioned and operating there is just playing hard. But understanding that environment, we at momentous knew it was important to have a robust spacecraft that can survive and complete its mission even in off nominal conditions. On Vigoride 3, which we launched in May, We experienced a mechanical issue with a bracket and a pin mechanism that kept our solar arrays from deploying. This created a low power situation on board.
And initially, we were able to establish 2 week communication with the spacecraft, But the low power situation prevented us from maintaining that two way communication between the spacecraft and the ground stations. However, because we understood the unforgiving environment in space, we had designed redundancy and resiliency features into the Viguride spacecraft, which ultimately allowed us to deploy 7 of the 9 customer satellites that Vigarite Thru is carrying in spite of the low power situation and lack of two way communications with our ground stations. We are continuing efforts to deploy the remaining 2 customer satellites. For Vigorad V, the vehicle we plan to fly next month, we're even more focused on implementing resiliency and redundancy features and testing them on the ground, including in off nominal conditions. We've incorporated system robustness in a number of ways, features like an autonomous deployment feature that enables us to deploy satellites should we lose communications with the vehicle.
We have redundancy between two sides of the vehicle that we call side A and side B. So major subsystems Have a backup system onboard. We've incorporated for our next flight a new feature with a beacon to facilitate finding the vehicle faster and establishing communications more rapidly or should there be an interruption in communications, reestablishing those communications. And we've added this enhanced testing regimen including the solar array deployment testing we showed in the video with on the actual spacecraft with the actual panels that will fly on the spacecraft. We're also doing what we call day in the life testing, Which is experiencing a typical day in the life of the spacecraft and putting it nominal and off nominal situations and recovering the vehicle.
And we're doing more testing of system performance overall. So, as I mentioned prior to Importantly, prior to our last mission in May, we fully anticipated that our first mission that we would experience some issues And the primary goal of that mission was to learn from how the spacecraft performed in space and to make adjustments to improve its performance. And we've implemented those performance improvements in advance of our next launch, which we're really looking forward to with a lot of eager expectation here to see Vigorate V go to space in December. Thanks again for the question.
Okay. Thanks for your answer.
Your next question comes from the line of Austin Moller from Canaccord. Your line is open.
Hi, thanks for taking my question. So what primary endpoint objectives are you looking to accomplish on the VIGRIDE 5 mission now that you've completed the previous mission and address the issues there. And so what primary endpoint objectives do you want to accomplish on that that will enable quick turnaround to the BigRide 6 and so on missions and what's considered more of a secondary objective?
Thanks for the question, Alton. The VigorEye 5 mission will be our 2nd demonstration mission. And so the primary objective of this upcoming mission is to test the vehicle, learn from any issues we encounter and address those issues on subsequent VigorEye vehicles as we work toward freezing a design for production. Vigorite 3 taught us many lessons, as I mentioned, that we applied to Vigorite 5 and we're more this time around in the performance of VigorEye 5 as a result. I expect our systems our confidence in the system Is going to increase with each additional demonstration mission we fly.
Vigoroid V is from our Block 2.2 configuration And that's a significant block upgrade from Vigoroid 3, which was from our Block 2.0 configuration. And so, One of the other primary objectives of the flight is to test Vigroid 5 and the new Blok 2.2 configuration, which is designed to be much more capable and a more reliable vehicle than Big Rig III. The MET thruster, which we're eager to see perform in space, has been upgraded for Big Red 5 and it's designed to be more capable than its predecessor. We've taken steps towards modularity in this design as well to allow payload to be traded for propellant, as we which will allow us to tailor our capabilities for the needs of the customers. And then this improvement that we've made to allow for the start of payload hosting capabilities is also significant and we're looking forward to having our first or a significant I should say hosted payload customer on the VigorIde 5 mission and testing and demonstrating some of the differentiators that we think allow our Vigorite hosted payload capability to be better than competitors in their ability to host payloads.
The flexibility of that configuration which we'll demonstrate with the Caltech payload which is a complex and large deployable payload that is mounted to our upper deck and also the amount of power that we can supply. We have a large solar array and can deliver up to 1 kilowatt in host power to our customers. Ziggurat solar arrays in fact are modular. So in some configurations, they can produce 2 kilowatts of power, which is enough to power the James Webb Telescope, which is 6,000 kilograms or 200,000 standard LED light bulbs. In this configuration, we would allocate about half our available power to FigureRide and reserve the other half for our hosted payload customers, which is again a major advantage for us over competitors that can provide less power.
So those are some of the things that we're eager to demonstrate on the next flight that then will give us more flight heritage Because we think we've got differentiated capabilities, now that if the mission is fully successful, we will have demonstrated those differentiated capabilities in space which should improve our ability to attract customers. So thanks again for the question.
Excellent. Thanks for all the color on