Thank you, IMRA!

IMRA’s support and donations to the University of Michigan Solar Car Team over the past eight years were crucial to the team’s second place finish in the 2017 Bridgestone World Solar Challenge across the Australian outback this past October, and to our ability to race in the 2018 American Solar Challenge this summer.

As a team that’s driven by technology, we are always happy to receive support from companies that see the value in pushing technology and doing something new. For our fourteenth generation car, the team decided to make a leap and use a state-of-the-art, space grade, multi-junction gallium arsenide array. This solar array is not only highly efficient, but also very expensive. Novum would have remained a UM Solar Car dream without the multi-junction array, which we could not have purchased if not for IMRA. “Without IMRA’s support, Novum would not have been financially viable,” 2017 Race Crew member and the team’s resident financial wizard, Neil Jain, explains. If we hadn’t built a car as aerodynamic as Novum, it is unlikely we would have gotten the amazing result of a best-ever finish by a University of Michigan Team, so we were excited to be able to take Novum out of our Computer Aided Designs and onto the road with the help of IMRA.

IMRA has continually supported UM Solar at every turn, helping us make connections in industries that have greatly benefited the team. Our 2017 Project Manager, Jonathan Cha, emphasizes our valuable relationship with IMRA: “Our team and IMRA have shared an almost decade-long relationship. We’re both located in Ann Arbor and share a similar passion in innovative technologies. Even though we have different focuses, between high-powered lasers and solar-powered vehicles, IMRA has supported us and our endeavours in the American and Bridgestone World Solar Challenges. Our team is grateful for IMRA’s continuous contributions and friendship. Without it, the students who have been on this team would not have had the amazing experiences and opportunities they have today.” We always love working with IMRA, we can’t thank IMRA enough for all that they have done for us, and we’re looking forward to working with them more in the future!

Thank you, GM!


General Motors has been a staunch supporter of the University of Michigan Solar Car Team since the team’s inception, and we have been delighted to partner with them again as we prepared to race Novum both across the Australian Outback and along the Oregon Trail! In addition to the financial support from General Motors, having access to GM vehicles throughout our design and build cycles were critical.

We have utilized vehicles that GM provided not only to our team, but also to the entire Wilson Student Team Project Center. The team has used the vehicles for everything from making runs to pick up materials and parts for the car to taking the car to an elementary school to teach young students about the importance of STEM education and the future of renewable energy. Having access to the Suburban gave us the ability to take large numbers of team members to downtown Detroit for the North American International Auto Show, allowing us to represent our team and sponsors at this important event. And having access to the GMC Sierra and multiple Silverado trucks has made it easy to trailer Novum to where the team needs her to be, particularly for race-critical purposes like on-road testing or caravan training. The ability to train on road, make supply runs, attend meetings with sponsors, and interact with the public helps the team function like a well-oiled machine. Mobility means a lot to our operational efficiency.

Use of the GM cars as caravan vehicles during our current mock race and the 2018 American Solar Challenge, where we seek our seventh consecutive title, is extremely valuable. All our caravan vehicles provide crucial race support and help us race safely and smoothly. 2018 Operations Director Vignesh Jagathese describes, “Without GM vehicles, we wouldn't be able to race 1,800 miles through the American heartland to go after our 10th American Solar Challenge title. GM vehicles form an integral part of our fleet, from our Chase Vehicle, which acts as our mobile mission control and houses our Head Strategist and Crew Chief, to our Lead Vehicle, which drives directly ahead of the solar car and advises upcoming road conditions.” These vehicles have been critical during our mock race and will continue being integral as we go on to race across the country.

We are grateful for GM’s continued support in providing both these vehicles and financial support. The team is looking forward to continuing collaboration with GM!

Thank you, Ford!


Ford helped the University of Michigan Solar Car Team at every step of the way, from car construction to race preparation and finally, to the 2017 Bridgestone World Solar Challenge itself.

“Manufacturing or racing our 14th car would not have been possible without Ford's support,” 2017 Project Manager Jonathan Cha elaborates, going on to describe the details of Ford’s help. “Ford has supported us with machine time in the Ford Design Milling shop, caravan vehicles, and usage of the Jacobs Wind Tunnel. This year, we designed the most aerodynamic vehicle in the team's 28-year history, and with Ford's help, we were able to verify our vehicle's aerodynamic capabilities in their wind tunnel.”

When we built Novum, Ford milled plugs from our tooling board for us to use in our composites manufacturing process. Building an all-carbon fiber car is no small feat, and having Ford’s help with this all-important step ensured that we put our best foot forward in this difficult process. These plugs enabled us to make our molds, and our molds enable us to make our carbon fiber chassis, canopy, upper, fenders, and fairings. Ford-milled plugs were the first step in building our entire aerobody. This means that Ford Milling had a direct hand in helping the University of Michigan take its most aerodynamic car to date off of the drawing board and into reality.

Once we finished building Novum, BWSC preparations were not over. Ford yet again graciously allowed the University of Michigan Solar Car Team to test its solar vehicle in its Jacobs Wind Tunnel. There, in order to gain a better comprehension of the performance and efficiency of Novum, team members conducted various aerodynamic tests. And because we were testing in Ford’s wind tunnel, we were able to acquire numerous data points for a wider range of angles and speeds than we otherwise could have.


We covered Novum in tell tails, strings attached at several points on the car that enabled our engineers to gauge turbulence and air flow. The team also performed other air flow tests at different yaw angles. Injecting smoke into the wind tunnel, for example, granted the team an opportunity to observe with great visualization where Novum has flow separation along its aerobody.

All these tests and coefficient calculations had far-reaching benefits for Michigan’s racing efforts. Being able to accurately quantify these aerodynamic values meant possessing reliable numbers that we could base our race simulations on; this helped our Strategy Division make decisions and plan ahead when on the road in Australia.

Ford also influenced our race operations, providing us with our Lead, Chase, Scout, Weather, and Media caravan vehicles in Australia to support Novum’s trek across the Outback. Being able to race with this full caravan meant that Novum had the support she needed and our Race Crew’s capabilities were not limited.

Ever a staunch supporter of the team, Ford was integral to the University of Michigan’s recent historic finish in the 2017 Bridgestone World Solar Challenge. We are now working together in preparation for the 2018 American Solar Challenge, making sure our team successfully modifies Novum to comply with regulations. For example, Ford milled the plug for our new canopy, which is currently in the process of being built.


We are very grateful for the past 25 years of partnership with Ford, and we look forward to continuing collaboration in the future!

Thank you, ZF!

It can be said that for any car, multiple things need to go well. The engine must run, the wiring must connect, the driver interface must be well put together, and the motor must be fully functional. That’s not even getting into all the aspects that comprise the vehicle’s aerodynamic design. However, no aspect of vehicle building or planning can come to fruition without what is likely one of the most fundamental components of any car: the wheels.

It is the wheels that literally move the car forward, and bring the driver to his or her destination. And ZF was there for us to ensure that Novum, our smallest solar car, would move forward. “Without ZF’s machining capabilities, we wouldn’t have been able to manufacture our front and rear wheels,” says 2017 Race Mechanical Engineer Jake Anderson.

Thanks to the reliable wheels we had machined by ZF, we were able to move full speed ahead—both literally and figuratively—to our first-ever 2nd place Bridgestone World Solar Challenge finish. In Australia, we had a lot riding on our performance. We were experimenting with a new aerodynamic design, and consequently had much to think about in terms how we would adjust our race strategy to meet this new design. Add this onto the fact that we were dealing with exposure to some of the harshest natural elements the world has to offer, and this can easily seem like an overwhelming situation. Having durable, reliable, and versatile equipment is integral to the survival of any vehicle, but ZF’s wheels went above and beyond. Not only were they of the utmost reliability, but they helped us thrive under the extreme temperatures and extreme road conditions of the Outback.

In the past, many of our wheels had formed cracks in the rims, leading to the team spending precious race time on taking care of these structural issues. ZF’s machining capabilities were of great help to our mechanical team. Their knowledge and analysis of the crack formations on our previous wheels allowed us to fine tune the wheels we ended up using.


ZF also provided us with shock absorbers that Jake says “never once failed us and required minimal maintenance, allowing us to focus on other car systems.”

Our historic second-place finish did not come without great effort—but it wasn’t just our own efforts. ZF’s hands-on, professional, and world-class assistance helped us move forward in this race—and that is something our members still speak of nearly half a year after the race. Thank you, ZF! We couldn’t have done it without you!

Thank you, 3M!

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In our day-to-day lives, we are rarely more than 10 feet away from 3M technology. 3M is a company rooted in scientific exploration and discovery, and they are ever evolving. They believe that science is just science until it is used to solve a problem. And that is exactly what is reflected in their vision: 3M technology advancing every company, 3M products enhancing every home and 3M innovation improving every life.

And for those of us at UM Solar Car, 3M’s unique versatility could not be more evident. For the 2015 race cycle, 2016 American Solar Challenge, and our most recent 2017 Bridgestone World Solar Challenge, 3M provided us with a multitude of equipment including, but not limited to: DP 460 glue, 471 vinyl tape, electrical tape, glass bubbles, duct tape, sandpaper, orbital sanders, full body suits, and respirators for safety.


3M has been an invaluable sponsor to the team, and a quick walk through our workspace will show the absolute ubiquity with which we use 3M’s tape, adhesives, and safety equipment.

The 471 vinyl tape serves a crucial role through its adhesive strength as it holds the fairings to the chassis of the car and eliminates gaps between individual components so as to maximize aerodynamic efficiency.

The full body suits and respirators have proven essential through their reliability and durability as they are staple tools in making sure our team members stay safe and clean when working with components which could potentially pose health risks.


The electrical tape and heat shrink insulate the wires of the vehicle, preserving the functional and structural integrity of our electrical components, and the vinyl car wrap aesthetically topped off Novum, providing her with a sleek, colorful appearance and complementing her already strong aerodynamic efficiency.

In our most recent race, the 2017 Bridgestone World Solar Challenge through the Australian Outback, we were exposed to terrain which challenged us and pushed us to our technical, mental, and physical limits. As a team, we were working with the novel, boundary-pushing design of our smallest vehicle yet, Novum. Along with this came exceedingly rigorous scrutiny, planning, and labor, both internal and external.

However, 3M’s products and support were key in helping us maintain the structural integrity of our vehicle and the well-being of our team members, allowing us to power through with Novum and race to 2nd place, our best yet World Solar Challenge finish.

According to UM Solar Car Operations Director Vignesh Jagathese, "3M has consistently helped the University of Michigan Solar Car Team through our toughest design cycles. 3M products are heavily used in our manufacturing process, and the high quality of their products helps us build the fastest car possible."

It would take pages to fully describe the value that 3M so graciously provides us as a team, but the overarching idea can be summed up in one phrase: 3M holds us together, both literally and figuratively.

Thank you, 3M, for being everything from the shield that protects us to the adhesive that binds us. We look forward to seeing what we can accomplish together in the future!

Thank you, Teijin!


Teijin was integral to the University of Michigan’s historic 2nd place finish in the Bridgestone World Solar Challenge, providing us with the materials necessary to build our incredible car, Novum.

Nearly all of the composite fibers for the car came from Teijin. Teijin gave UM Solar Car high graded prepregged uni-directional carbon fiber to reinforce stress points, prepregged carbon fiber weave for internal aero parts, and Aramid Twaron fabrics for the undercarriage of the car and the sidewalls and roll cage of its chassis.

This all translated to a significant amount of weight savings, shaving off countless precious minutes and contributing to our great race time. And thanks to the high quality of Teijin materials, we were able to proceed with construction and racing with full confidence in the structural integrity and safety of our vehicle. Twaron, for example, increased the impact resistance of the carbon fiber laminate, ensuring superior protection in the event of a crash.

Bit by bit, we pieced our car together using Teijin carbon. And we are very grateful that was the case, because the superior quality of Teijin’s product allowed us to build the best possible manifestation of our bold monocoque design.

“The carbon was some of the highest quality in terms of material property that the team has been able to get in recent years,” Composites Lead Bennet McGlade describes. Teijin allowed Novum to be as formidable and competitive as we had envisioned.


Teijin also proved to be an invaluable partner, helping us stay on track when our timeline was crunched. “Although Teijin is a first-time sponsor, they are very enthusiastic and helpful,” says Race Operations Engineer Janice Lau. “They really worked hard to find everything in time for us to use on the car, and we really appreciate it.”

During the design phase, Novum’s aerodynamic efficiency was always a top priority. Novum’s ultra-small body maximized aerodynamic efficiency and went against the widely-adopted credo in solar racing that maximizing array area and building a larger, less aerodynamic car is the best strategy. With this unconventional smaller solar car, Michigan Solar Car hoped to go big by going small, and building with Teijin’s high-quality carbon fiber equipped us to do just that when the time came.

Thank you, Teijin! We could not have done it without you! Now, heading into the 2018 American Solar Challenge, we can feel confident; we know that in partnering with Teijin, we put our best foot forward during the manufacturing process and built a car that was safe as well as fast. After all, we built Novum with some of the absolute best carbon and aramid in the world.

Thank you, Roush!

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At Roush facilities and with the guidance of Roush expertise, the University of Michigan Solar Car Team built the carbon fiber body of our car, Novum, which brought home Michigan’s strongest Bridgestone World Solar Challenge finish yet, 2nd place. First and foremost, this means Roush provided UM Solar Car with vital access to a large, professional workspace for prepreg composites manufacturing, providing us the best possible venue to undergo this process.

In doing this, Roush granted us the opportunity to use specialized equipment to enhance our efforts each step of the way.

CNC (computer numerical control) knife cutters, for example, helped with kitting, which makes hand layup easier. Hand layup is a composite fabrication method that involves layering fabric onto the molds. The fabrics that will soon go onto the molds must first be carefully cut into specific patterns or shapes, and kitting makes fabric placement easier because it involves cutting sets of fabric patterns and assembling them into kits. Here, Roush’s CNC knife cutters allowed for precision cutting of our materials.

Armed with these fabric patterns, the team began hand layup, hand-placing layers of dry fabric, or “prepreg” plies, onto a mold, which created something called a laminate stack. Then, resin was applied via resin infusion and the plies were then “debulked,” or compacted in a vacuum bag. This minimizes the creation of voids, or air pockets, in the laminate, which would likely weaken the composite. All the while, Roush staff were on hand, helping UM Solar Car build a better car by providing layup tips, watching for any errors, and advising team members on the best materials to use and where to use them.

After debulking, it was time to cure the laminate. Roush’s facilities are equipped with car-sized ovens and large autoclaves, specialized equipment which were of great use to us. Being able to use an autoclave for this curing process was important, because it helped the team achieve an optimal resin-to-fiber ratio and to avoid the formation of undesirable voids. With such instruments at its disposal, Michigan felt confident that its painstaking work would yield lightweight, strong parts.

Team members hard at work in Roush's facilities.

Team members hard at work in Roush's facilities.

We would not have been able to do all of this in our base of operations, the Wilson Student Team Project Center; Roush made Novum’s construction possible, and made the construction process run that much more smoothly. Our Operations Director, Peter Rohrer, highlights how significant Roush’s support is to the success of the Michigan Solar Car Team, saying, “Roush’s unparalleled workspace and expertise in composites manufacturing are a crucial asset to us, allowing us to have total confidence in the performance of our vehicle’s structures, which are made entirely of composite materials.”

Roush enabled us to build the car that performed so successfully in Australia this fall. With Roush’s support, the University of Michigan Solar Car Team moved its cutting-edge design into the three-dimensional world and made its vision a reality. We look forward to continuing this trajectory by collaborating with Roush as we make changes to Novum and prepare for the upcoming American Solar Challenge!

Thank you, Chuck!


Every solar race is different. Every race, we have a new Race Crew and a new car built around new regulations that ultimately shape design and fabrication. But one thing has never changed: Chuck Hutchins’ unwavering support of the team and its race towards a victory.

Among the many things Chuck does for our team, nothing beats seeing him at the starting line waving the maize and blue flag loud and proud, guiding our solar car. Since he first ran with the car Maize and Blue in 1993, Chuck has given our cars this send-off at the start of nearly every solar race in a sign of solidarity and tradition. The 2017 World Solar Challenge was no exception, and we wouldn’t have had it any other way!

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Chuck has been a longtime friend of the team. Since the very beginning, Chuck has been a mentor and advocate to the University of Michigan Solar Car Team. As a safekeeper of tradition and team culture, Chuck has instilled UM Solar Car values in generation after generation of our team. This cycle was no exception, with Chuck inspiring us to uphold and further the UM Solar Car tradition of excellence.

Chuck studied Mechanical Engineering and co-founded Manufacturing Data Systems, Inc., and Chuck’s experience in engineering and innovation was invaluable during the development of Novum, our most daring vehicle to date. This cycle, Chuck also provided the team with monetary support that helped us make the dream of Novum a reality; when our engineers were working on Novum’s design, the largest hurdle the team faced was financing the car. Chuck’s contribution set us one step closer and eventually helped this dream come to fruition. Chuck’s contributions didn’t end there, though. He was right beside Race Crew in Australia and treated them to several team dinners. After a long day of work, this was a great opportunity for Race Crew to decompress and spend time with Chuck, something they were very grateful for.


“Since 1990, Chuck has been a supporter of the team and our biggest fan on and off the race. I met Chuck for the first time over the summer and noticed that his passion and dedication to the team is unparalleled in all regards,” says 2017 Business Race Crew member Neil Jain. “From providing engineering advice at design reviews and stopping by the Wilson Center to see the car as it’s being built to being right by our side during the race, Chuck embodies UM Solar Car and wishes the best for the team always. I am looking forward to sharing many more memories with him and cannot thank him enough for all that he does for us. Chuck, THANK YOU!”

To our biggest fan and longest supporter: thank you, Chuck! We could not have won second place without you! We look forward to kicking off the next race with you and to experiencing even bigger and better things together.

Thank you, Altair!


Altair software and technical support was crucial to the construction of the University of Michigan’s newest solar car, Novum. A staunch supporter of UM Solar Car, Altair provided the team with generous access to its HyperWorks® software suite and Inspire®, as well as with technical advice. Composites Lead Bennet McGlade says that "Through the use of Altair's powerful analysis and optimization software package and with help from their fantastic technical and engineering support, we were able to build the fastest and safest car possible."

The HyperWorks suite was particularly useful for composite analysis, allowing our engineers to determine whether aspects of the design would fail under specific conditions.

Our engineers assigned material properties to the geometry of Novum’s CAD designs, and then applied loads using HyperMesh®, which illustrated the stress and strain values throughout the structure. This not only allowed us to see where the parts were most likely to fail or how much they might deform, but also allowed us to decide where to add more layers or plies to the structure, decisions that our Race Crew executed during the carbon manufacturing process, when we constructed Novum’s carbon fiber aerobody.

Altair’s OptiStruct® solver also aided in composite analysis, running optimizations that our engineers could base on certain criteria that they assigned. These optimizations told our engineers which were the lightest, safest designs; they then interpreted these results into a manufacturable layout and stacking pattern, which also aided our Race Crew during carbon manufacturing. Our engineers began with setting up the model with the geometry from CAD and with an initial analysis before beginning the three-step optimization process. The first step, free size, gives a continuous distribution of material thickness; the second, size, accounts for the individual thickness of each ply; and the third, shuffling, recommends the order in which each ply should be laid. Once the optimization process is completed, UM Solar engineers polish it and make the model manufacturable before again checking the analysis for all the different load cases.

“It’s a fairly complicated task,” Bennet says of composites analysis. “But HyperWorks is both versatile and powerful, which helps a lot. More importantly, though, it has fairly specialized tools and options specifically for composite analysis.”

Altair’s HyperWorks streamlined the composite analysis process, and its Inspire software was similarly crucial during the metal parts optimization process. Mechanical Lead Perry Benson explains that this is both a powerful design tool in the hands of experienced team members and a powerful instructional tool for newer team members.

“For the more experienced members, it lets the team squeeze every last ounce of unnecessary weight out of our components,” Perry details. Lightweighting was a main endeavor during the design process as the team strove towards its vision of the lightest, most aerodynamic car possible, so this was very important. We also had the ability to run assembly analysis to confirm that these optimized parts would coordinate properly as a system, ensuring that we had a car greater than the sum of its parts.

And for newer members of the team, Perry elaborates, Inspire helps teach newer members how to properly load and constrain parts and assemblies, gaining them a better overall understanding of the importance of design constraints. The software enables UM Solar engineers to visualize where on a given part the material is important; this visualization means they can better know how stress and load “flow” through the part.

“And being able to consider manufacturability during optimization also reduces the number of steps and time required from initial design to final part,” Perry concludes. In the end, this all yields the creation of more superior parts.

From creating ply schedules in CAD to applying forces to the car, Altair’s sophisticated software tools empowered UM Solar Car to optimize Novum to the maximum. And from composite analysis to metal parts optimization, it was all crucial to our mission, because the safer and sturdier our car is, the more reliable it is for our drivers on the road when racing, and the surer we are that we comply with regulations on safety and other things. And, ultimately, the faster Novum moved through the scrutineering phase of the 2017 Bridgestone World Solar Challenge, when officials inspect each team’s solar car to verify that all regulations are met and the vehicle is ready to hit the road.

Between its software and engineering support, Altair played a key role in getting Novum race-ready, and when the time came, Novum performed spectacularly, securing a second-place finish with Altair’s help. And now, as we look to the American Solar Challenge this summer, we are excited to continuing work with Altair to ensure Novum meets regulations. Thank you, Altair!

Thank you, Cummins!

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The University of Michigan Solar Car Team was excited to partner with Cummins for the first time!

Cummins’ support of this cycle was exciting for our team; at the same time that they venture further into the electrification space, looking to become a leader in electrification with their new electric semi-trailer, Michigan Solar Car took a radically different approach. Novum would not have been made possible without companies like Cummins who recognize the importance of innovation in both solar and electric vehicles.

It takes a lot of guts to branch off of what engineers before you have done, and our team was lucky to find a company that not only ensures that they are doing that, but that students working on projects like Solar Car also have the opportunity to innovate and try new things. Our 2017 Business Director, Abigail Siegal, explains how significant Cummins’ contribution to the UM Solar Car Team has been, saying, “While our team has always built an electric car, this year we were also moving away from from our traditional path, making a shift from using a catamaran design to a bullet-shaped car. Without Cummins' support, our risk-taking wouldn't have been possible and we wouldn't have been able to have the success we did.” We were excited that this year we had our best-ever finish and were able to welcome Cummins to the University of Michigan Solar Car family!

As we move into preparing for the 2018 American Solar Challenge and then the design cycle for our 2019 car, we look forward to partnering further with Cummins and continuing this tradition of striving for innovation!

Thank you, Offices of the President and Provost!

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We are always happy when we have the opportunity to partner with different offices, departments, and colleges within the University of Michigan, but working with the Offices of the President and Provost in particular has helped us engage with our university community in new and exciting ways. After meeting with the President and Provost last spring, the Solar Car Team has taken steps to ensure we are a part of the College of Engineering and the University of Michigan’s efforts to increase Diversity, Equity, and Inclusion on campus.

Through our work with the Offices of the President and Provost, the team has developed a five-year Diversity, Equity, and Inclusion plan of our own that parallels the ones developed by the College of Engineering and the University. We have already begun looking into ways that we can meet the goals set out in our plan. Part of our DEI plan is to appoint a Team Relations Coordinator to oversee our DEI initiatives and ensure that the team environment is welcoming and friendly. Our first Team Relations Coordinator, Abigail Siegal, comments, “I’m excited about the things we have in the works! I’ve been looking into ways to relieve the financial burden of racing, new ways of recruiting, and different team bonding events we can do. I truly believe that all of these initiatives will make our team stronger.”

The team is eager to see the diversity of thought that these plans may bring to the team. The ultimate goal is that the team will be more diverse and every member will feel comfortable proposing new ideas and asking important questions. When you have people coming from different backgrounds in a multidisciplinary environment like UM Solar Car’s, people will be able to bring different strengths to the table. We strive to be the best team in the world and the best way to do that is to have the best people possible in a truly collaborative environment. The involvement of Offices of the President and the Provost makes it easier for us to do just that!

The financial support of the Offices of the President and the Provost will not only help us with achieving this goal, but as we continue to strive to be not only the best the solar car team in the United States, but in the world!

Thank you, University of Michigan College of Engineering!


The University of Michigan College of Engineering is an indispensable partner of UM Solar Car, providing us with everything from our workspace and our students to financial support and media coverage.

Our team is housed in the College of Engineering’s Wilson Student Team Project Center, the hub of all our operations. Here, the team designs, stores composites and materials, meets to discuss sourcing, hosts corporate sponsors, welds, saws, sands, and more. The Wilson Center is UM Solar Car’s home, and it’s where, bit by bit, Novum was born.

Our space in the Wilson Center is vital to our operation.

Our space in the Wilson Center is vital to our operation.

We are also very lucky and proud to be the University of Michigan Solar Car Team. Our recruits study at one of the top engineering schools in the world, and this means that our engineers are talented and dedicated, and well-equipped to handle the challenges of designing, building, and racing a solar car. "We are always grateful to the College of Engineering for drawing the bright engineers who make projects like Novum possible to Michigan, and for giving them the world class education needed to compete amongst the best teams on the planet," Project Manager Noah Bearman remarks.

Michigan Engineering supported the team with funds, as well, helping us avoid a situation in which financial constraints could have prevented the construction of our faster, riskier, more innovative—and more expensive—design, Novum.

During the 2017 Bridgestone World Solar Challenge, the College of Engineering also aided UM Solar Car with media coverage, posting on social media and publishing detailed stories and press releases about our Race Crew’s life in Australia, the excitement of the race, and the great meaning of our historic finish.

UM Solar Car is very grateful for Michigan Engineering’s continued strong support, without which we could not have raced to our best-ever WSC finish. We look forward to what comes next and we are determined to continue representing our school proudly and successfully. Thank you!