Episoder
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Michigan Governor Gretchen Whitmer gave the Canadian oil company Enbridge until May 12th to shut down the segment of the Line 5 pipeline that runs along the Straits of Mackinac. Enbridge has filed a federal lawsuit challenging the order. The question remains: how would Enbridge shut down the controversial pipeline and construct a replacement tunnel?
As the deadline approaches, University of Michigan engineering researchers offered insights into how the company might go about doing that, and also how they might construct a tunnel under the lakebed for a replacement section of the line.
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If all goes according to plan, plenty of eyes will be on Mars on February 18th, the day NASA’s Mars 2020 mission is set to touch down on the Red Planet’s surface.
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Late in 2019, just months before the U.S. plunged into full-on, COVID-19 life, NASA tapped Mechanical Engineering Assistant Professor Jesse Capecelatro and his team to help study the particles that are stirred by the landing of a spacecraft. The rockets that fire on a typical spacecraft landing kick thousands of tiny surface particles into motion, and those particles can create trouble for any multi-million dollar craft even under the best of circumstances.
For the Mars 2020 space mission and other landings scheduled over the next few years, the University of Michigan crew will collect data and create physics-based models that can be incorporated into codes used by NASA. They’ll help predict what happens when a spacecraft attempts to land millions of miles from home.
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Manglende episoder?
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S1 E4 - The Blue Sky Podcast
Evolution provided bacteria with a mechanism to overcome our antibiotics, and each time we introduce a new antibiotic, they get faster at becoming resistant to it. At the same time, it can take 14 years and billions of dollars to bring a new one to market.
Angela Violi, professor of mechanical engineering, is leading a coalition of chemical engineers and biologists trying to change the game by developing antibiotics in a new way. They want to design nanoparticles to exploit weaknesses in the target pathogens. Not only could they work better, they could make it to market faster.
The Blue Sky Podcast is an award winning limited series from RE: Engineering Radio and the University of Michigan College of Engineering. We’re following four research projects in critically important areas of global consequence.
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S1 E3 - The Blue Sky Podcast
What’s more expensive—dealing with climate change, or not dealing with climate change? The Global CO2 Initiative is trying to break the trade-off by making carbon-negative manufacturing pay. The effort views the carbon dioxide in the atmosphere as a resource to be mined from smokestacks or even the air and used to make a variety of products from clothing and shoes, to concrete and packaging.
The project aims to reduce the equivalent of 10% of current atmospheric carbon dioxide emissions annually by 2030. Volker Sick, a professor of mechanical engineering and director of the initiative, explains the concept.
The Blue Sky Podcast is an award winning limited series from RE: Engineering Radio and the University of Michigan College of Engineering. We’re following four research projects in critically important areas of global consequence.
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Enjoying RE: Engineering Radio so far? Rate, review and subscribe to receive notifications when new episodes go live!
Apple Podcasts: https://umicheng.in/EngineeringPodSpotify: https://umicheng.in/EngineeringPodSpotifyGoogle Play: https://umicheng.in/EngineeringPodGoogleHosted on Acast. See acast.com/privacy for more information.
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S1 E 2 - The Blue Sky Podcast
We may not like to think of our water as being filled with microbes but...well, they’re in there. And we could be recruiting some to help us out rather than treating them like a monolithic opposition to be roundly defeated with an abundance of chlorine.
Lut Raskin, professor of civil and environmental engineering, leads a project that aims to understand and harness the water biome. And it’s not just about healthier water. Understanding microbes could clue us in when water infrastructure is starting to break down—for instance, when cracks are developing in water mains or when protective coatings on the insides of old lead pipes are being corroded away.
The Blue Sky Podcast is an award winning limited series from RE: Engineering Radio and the University of Michigan College of Engineering. We’re following four research projects in critically important areas of global consequence.
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Enjoying RE: Engineering Radio so far? Rate, review and subscribe to receive notifications when new episodes go live!
Apple Podcasts: https://umicheng.in/EngineeringPodSpotify: https://umicheng.in/EngineeringPodSpotifyGoogle Play: https://umicheng.in/EngineeringPodGoogleHosted on Acast. See acast.com/privacy for more information.
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S1 E 1 - The Blue Sky Podcast
What if we could learn from the trees to make a fossil fuel alternative out of carbon dioxide and sunlight alone? We could close the loop on carbon emissions—a critical win in the battle against climate change.
That's one of the goals of Zetian Mi, professor of electrical engineering and computer science. He's also aiming to make efficient, affordable ultraviolet LEDs to sterilize drinking water in parts of the world that don't have enough today. Connecting these two technologies is an up-and-coming semiconductor called gallium nitride. Can Mi's team engineer the quantum properties so that gallium nitride lives up to its promise?
The Blue Sky Podcast is an award winning limited series from RE: Engineering Radio and the University of Michigan College of Engineering. We’re following four research projects in critically important areas of global consequence.
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Enjoying RE: Engineering Radio so far? Rate, review and subscribe to receive notifications when new episodes go live!
Apple Podcasts: https://umicheng.in/EngineeringPodSpotify: https://umicheng.in/EngineeringPodSpotifyGoogle Play: https://umicheng.in/EngineeringPodGoogleHosted on Acast. See acast.com/privacy for more information.
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Engineers are problem-solvers. And humanity has some colossal problems.
The Blue Sky Podcast is an award winning limited series from RE: Engineering Radio and the University of Michigan College of Engineering. We’re following four research projects in critically important areas of global consequence. Coming November 25th.
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Failure is not an option….but why can’t it be? Too often “failure” is a negative. We’re conditioned to the binary options of either failure or success, but in reality, failure is a lot more nuanced. Join us as Professor Peter Adriaens tells three short stories—on failure, risk taking and the lessons learned to achieve positive outcomes.
Peter Adriaens is a professor of engineering, finance and entrepreneurship at the University of Michigan, working currently on financial innovation and risk analytics for industrial renewal.
This is a recording of an event hosted by the CID Committee, a pilot program aiming to enhance creativity, innovation and daring. Developed by staff, for staff.
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When women and underrepresented minorities make important contributions to science or technology, why do they later disappear from history? It’s a phenomenon that Lynn Conway, University of Michigan professor emerita of electrical engineering and computer science, has documented since her own erasure. Conway was a driving force in the very-large-scale integration, or VLSI, revolution which triggered the expansion and impact of Silicon Valley, and is credited with making modern digital systems such as cell phones and laptops possible.
In this episode of RE: Engineering Radio, she reconstructs how her own contributions faded over time and why “others” lose credit.
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Mind-controlled prosthetics—we’ve all seen them in movies, right? They feel like something we should already have, but so far they've been out of reach. The problem isn’t that scientists and engineers can’t make them. It’s that the crucial link between artificial limb and mind needs to be restored, in a way that turns that hardware into humanware.
University of Michigan researchers are harnessing brain signals via a groundbreaking interface between man and machine that could give amputees back more of themselves.
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For more than a decade, a global alliance of engineers developed the unprecedented scientific payload aboard Solar Orbiter. A team from the University of Michigan helped lead that journey.
In this episode of RE: Engineering Radio we join them on launch night—a defining moment for them, for solar science, and for our future as a spacefaring species.
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Apple Podcasts: https://umicheng.in/EngineeringPodSpotify: https://umicheng.in/EngineeringPodSpotifyGoogle Play: https://umicheng.in/EngineeringPodGoogleHosted on Acast. See acast.com/privacy for more information.
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Hey listeners! This episode of RE: Engineering Radio is a little different than what you've heard in the past. Here, members of the RE: Engineering Radio team sit down for a round table discussion of some of the coolest, most interesting, and most noteworthy mentions of Michigan Engineering researchers in the news—featuring bipedal robots, drones that help shingle roofs, and insight into internet censorship that could affect the U.S.
Thanks for listening to season one of RE: Engineering Radio. If you missed anything, go back and check it out—and while you're at it, rate, review and subscribe to receive notifications when we get back!
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Deep in the Amazon, teams from around the world collaborate to understand plant life in the rainforest. Now due to climate change and the rollback of forest protections, their work has never been under greater threat. Hear about Michigan researchers' race to unlock the equations that could save the Amazon—and us all.
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Somewhere, in a parallel universe, there is an Ella Atkins who happily does her research on autonomy in aerial vehicles, licenses software to aircraft companies and generally makes airspace a safer place. In our universe, aerospace hasn’t been ready for her. In this episode of RE: Engineering Radio, hear how Professor Ella Atkins is persuading a field to face its future.
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Apple Podcasts: https://umicheng.in/EngineeringPodSpotify: https://umicheng.in/EngineeringPodSpotifyGoogle Play: https://umicheng.in/EngineeringPodGoogleHosted on Acast. See acast.com/privacy for more information.
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U-M researchers developed a way to make large numbers of human embryo-like structures that have the potential to solve hard problems in maternal and child health. Batches of these structures could help screen medications for safety during early pregnancy, for example, and shed light on the causes of both birth defects and multiple miscarriages.
In this episode of RE: Engineering Radio, Michigan Engineering's Kate McAlpine details this new method for studying embryonic development—one that also poses tough questions.
A paper on the work has been accepted to Nature.
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Today she’s a NASA engineer turned CEO, but Aisha Bowe began her journey as a self described teen struggling with low self-esteem. After excelling in community college math classes she transferred to Michigan Engineering’s aerospace program, where she earned her bachelor’s and later a master’s degree in space systems engineering. Her tech company, STEMBoard, aims to help historically underrepresented youth play a role in designing tomorrow’s technologies.
In this episode of RE: Engineering Radio, Bowe discusses her life, career trajectory, and the importance of a company like STEMBoard. This interview was conducted by Rob Woodfork at WTOP News in Washington D.C. and has been adapted with permission.
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The Carrington Event, a solar storm that struck Earth's magnetosphere in 1859, was so powerful it knocked out telegraph wires for three days—and some subsequent solar storms have equaled or surpassed Carrington's magnitude. If these coronal mass ejections were to hit Earth today, they could severely damage our power grid, potentially wiping out electricity across the planet for months or even years. What can humankind do to prepare?
In this episode of RE: Engineering Radio, we interview Justin Kasper, a climate and space science professor at the University of Michigan and a Principal Investigator on the Parker Solar Probe. Its mission? Provide us with the data to protect the power grid and save lives.
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How did an Ann Arbor security start-up get acquired for $2.35 billion? The co-founders met in a stairwell. Jon Oberheide was a high school hacker, breaching security at the same company where Dug Song worked. Duo Security, the company they'd later found together, brought a punk-rock ethos to tech security and stuck up for the little guy.
Following the biggest acquisition of its kind in the state of Michigan, both University of Michigan alums spoke with RE: Engineering Radio about the company’s history and where it's going next.
Check out the full story here: https://news.engin.umich.edu/features/change-or-be-changed/
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