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Want to Invest Like Cathie Wood? Use These 3 Principles. – The Motley Fool

Cathie Wood's ARK Innovation ETF (ARKK -0.18%) is known for its aggressive bets on the cutting-edge companies of tomorrow. Between its holdings in lesser-known businesses with big potential, like Ginkgo Bioworks(DNA -0.32%), and its investments in more familiar names like Tesla(TSLA -1.10%), there's a lot to appreciate about Wood's approach to buying stocks.

While her flagship ETF is underperforming the market over the last three years, her investing style is worth learning about because it's a great contrast to other famous investors like Warren Buffett. In particular, there are three principles Wood uses to select stocks that you'll benefit from understanding, so let's dive in.

The pillar of Cathie Wood's approach to investing with her company ARK Invest is to find businesses that are creating disruptive innovations. Disruptive innovations, in her conception, can take several forms, including technologies that significantly slash costs, technologies that change more than one industry or geographical region, and breakthroughs that enable other follow-on innovations in a handful of different product segments.

In practice, that means she invests these days in a lot of companies that are competing in artificial intelligence, robotics, autonomous vehicles, DNA sequencing, energy storage, 3D printing, and blockchain technology.Focusing on potentially disruptive innovators explicitly means not paying much attention to entrenched competitors. It means investing in players that are pioneering new business models or pioneering new fields entirely.

Take Ginkgo Bioworks, for instance. Its idea is to use robotics and other forms of automation to streamline the process of designing and manufacturing custom-built microorganisms for use in the biotechnology, agriculture, and food industries, among others. Management claims that with its expertise in automation, it'll be able to benefit from economies of scale that drive down costs compared to other ways of accomplishing the same bioengineering and biomanufacturing tasks.

For the moment, Ginko Bioworks is unprofitable but rapidly growing. But if it succeeds, it'll be a favorite collaborator in multiple industries, and its stock will soar over the course of years. And that's why it's a Cathie Wood favorite.

Cathie Wood likes to invest in businesses that have the potential to become huge over the next three to five years or so as a result of their mastery of their markets, and enabled by disruptive innovations. In short, she doesn't much care for businesses that can make consistent and incremental progress on their earnings year after year as they're more likely to be less innovative competitors.

And exactly how big are the returns Wood is looking for? There's no single answer, but here's an example. In late August of this year, before Tesla's latest stock split, its price was near $891. A month before, in late July, Wood had set an ambitious price target: Tesla shares would be worth $4,600 by 2026. That means within three and a half years, she anticipated that shares would grow by around 416%.

Therefore, if you want to follow Cathie Wood's approach, look for businesses that could boom if their disruptive innovations are realized to their fullest potential.

It's officially part of ARK Invest's screening process to evaluate stock valuations. But evidence indicates that pricey valuations are seldom a deal breaker for Cathie Wood, and that other factors, like a company's potential to grow, are far more important when it comes to what makes the cut.

For example, in the first quarter of 2022, she bought shares of Tesla on numerous occasions. At the time, Tesla's trailing 12-month price-to-earnings (P/E) ratio was between 343 and 219. For reference, the market's average P/E since 1990 is a little over 23, so Tesla's valuation was (and still is) on the very high side in comparison. That doesn't deter Wood, though -- with the run-up she anticipates, it makes complete sense to keep buying shares of an "overpriced" stock.

So, if you want to invest like Cathie Wood, don't get fixated on valuations today. Tomorrow's valuations are far more important to whether your investment is profitable.

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Want to Invest Like Cathie Wood? Use These 3 Principles. - The Motley Fool

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EEE PhD student awarded Graduate Teaching Assistant of the Year – Imperial College London

The Faculty of Engineering presented its Graduate Teaching Assistant (GTA) Of The Year award at the staff BBQ last week.

The annual award recognises the integral role our GTAs perform within the Faculty, and offers an incentive for GTAs to strive for excellence in their teaching. Each year, all engineering departments select their top GTA, and from these nominees the Faculty chooses an overall winner.

Eugenie Ducoin from the Department of Electrical and Electronic Engineering was named overall winner of the award for 2022, and Georgia Smith, Department of Bioengineering, received the highly commended award.

Eugenie completed her undergraduate studies in our department in 2019 and is now pursuing a PhD in power electronics.

Nominating staff Professor Tim Green and Dr Phil Clemow praised Eugenie as a vital member of their teamon our Power Electronics and Power Systems module.

They commended her for her pro-active engagement with undergraduates, as well as her subject knowledge and the appreciation of students learning styles which have been essential in helping design, test and refine lab experiments.

Eugenie's nomination highlights her dedication to the student experience, and her thoughtful and approachable teaching methods in both the lab and problem class sessions.

Professor Green said: Eugenies passion for our subject is evident to all, and combined with her careful and caring approach to teaching, her contributions are highly valued by our students.

"She has a quiet confidence in the teaching setting, and is highly approachable and listens well to students as they explain their workings or difficulties. She responds with a thoughtful and assuring style to give students just enough help to get started again on the problem, and adeptly adjusts her responses to the needs of the student, either just giving gentle hints or going back to the fundamentals.

Eugenie is keen to pass on her love of the subject to our undergraduates, she explains:

Students sometimes shy away from power electronics because they find the subject uninteresting or irrelevant, but it is essential to solving the environmental challenges of today and tomorrow. Being a GTA both in the lab and in class has allowed me to share my passion, and I will never tire of seeing the excitement of students when they begin to understand a topic. I hope I have encouraged some students to pursue power engineering the same way Professor Green and the lab GTAs inspired me when I was an undergraduate.

Teaching has also helped me to communicate and share my research more effectively, as I have learnt from explaining something in several different ways to fit each students learning style. I recommend all PhD students to get involved in teaching; it might surprise them how rewarding it is.

I am very grateful for the recognition that winning this award represents. With the invaluable help of Professor Tim Green and Dr Phil Clemow, I have improved my teaching skills over the past three years, and I am glad to have received such appreciation from the Faculty of Engineering.

Our congratulations to Eugenie and all this year's nominees from across the Faculty.

Find out more aboutgraduate teaching assistants.

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EEE PhD student awarded Graduate Teaching Assistant of the Year - Imperial College London

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UH Mnoa engineering programs earn accreditation | University of Hawaii System News – University of Hawaii

College of Engineering students and members of Team Hklele prepare for a rocket competition in 2021.

Engineering programs at the University of Hawaii at Mnoa have been accredited by the Accreditation Board for Engineering and Technology (ABET), confirming that they meet standards essential to prepare graduates to enter STEM fields in the global workforce.

The following programs are accredited:

In addition, construction engineering, which was launched in fall 2019 by the College of Engineering, retroactively earned accreditation from October 2019.

We are extremely excited about our accreditation renewals as well as our newest accredited degree program in construction engineering, College of Engineering Dean Brennon Morioka said. This is a clear indication of the confidence ABET has in the hard work by our faculty and staff in providing the kind of educational experience and development of professional skills our students will need to be productive and highly skilled engineers and leaders upon graduation.

SOEST Interim Dean Chip Fletcher added, These programs have been accredited because they are readily accessible to Hawaiis high school graduates, provide excellent education opportunities, and are globally recognized for cutting-edge research on issues that matter to the people of Hawaii.

The rigorous ABET accreditation process ensures the quality of our biological engineering degree program, which is a critical component of CTAHRs transdisciplinary approach to deliver sustainable food systems and ecosystem health solutions to the people of Hawaii, CTAHR Interim Dean Ania Wieczorek said. I thank the biological engineering students, faculty, alumni, industry partners, and the UH Mnoa ABET team for their work to achieve this result.

For the accreditation process, UH Mnoa faculty and staff completed an extensive self-study and hosted a site visit with an ABET accreditation team in November 2021.

According to ABET, graduates from an ABET-accredited program have a solid educational foundation and are capable of leading the way in innovation, emerging technologies, and in anticipating the welfare and safety needs of the public. To date, ABET has accredited 4,361 programs at 850 colleges and universities in 41 countries.

For more about ABET and its accreditation criteria, visit ABETs website.

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UH Mnoa engineering programs earn accreditation | University of Hawaii System News - University of Hawaii

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Autonomous, other tech disrupting the agricultural industry – TweakTown

Autonomous technology and automation are proving disruptive across numerous verticals, including the agriculture industry. Cutting-edge solutions such as driverless tractors, Internet of Things (IoT) temperature and moisture sensors, GPS, and drone technology allow farmers to be far more efficient than if the technologies weren't made available to them.

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Although the future appears bright, there are a few issues that need to be addressed, including risk management, legislation, and safety protocols. Safety is a significant area of concern, as farming can be inherently dangerous - but rapid advancement in technology could create potential safety risks for human workers sharing their work environment with these newer technologies.

As noted by Dr. Salah Issa, assistant professor at the University of Illinois Urbana-Champaign's Agricultural & Biological Engineering Department: "The introduction of mechanization in agriculture in the early 1900s transformed farms and surrounding communities. We expect digital technologies to lead to a similar transformation on farms and in many rural areas."

To discuss how technology is disrupting the agricultural industry, the University of Illinois Urbana-Champaign will host the Safety for Emerging Robotics and Autonomous Agriculture (SAFER AG) workshop November 9-10.

Much of the innovative solutions are still in the research and testing phase, so there is room to adjust before they're commercially available. Every product designed to be labor-saving offers both opportunities and possible concerns, which is what the workshop is designed to discuss - pros and cons of the ongoing changes are fair game.

The agricultural robot market is expected to reach almost $36 billion by 2030, as their use expands to cover a wider range of day-to-day activities. Everything from irrigation management, harvesting crops, soil management, dairy management, and other tasks become automated to assist farmers become more productive while tending to their crops and livestock.

In addition to reducing physical human effort, these robots can lower production costs, increase crop yield, and maximize crop quality.

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Autonomous, other tech disrupting the agricultural industry - TweakTown

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Know What You Want To Achieve Fluence CEO Cautions Companies Against Adopting Just Any Technology For T – Benzinga

CEO of Fluence Bioengineering Inc. has cautioned cannabis growers against adopting just any technology for their business.

According to David Cohen, who was speaking at this years Benzinga Cannabis Capital Conference in Chicago, growers should first identify what they want to do and achieve before settling on the right technology for their business.

Theres all kinds of data acquisition and analytics now available for a grower. You have to analyze millions of data points and make decisions, he urged.

Fluence, which operates as a business unit within Signifys Digital Solutions division, creates powerful and energy-efficient LED lighting solutions for commercial crop production and research applications.

The company is a leading LED lighting supplier in the global cannabis market and is committed to enabling more efficient crop production with the worlds top vertical farms, and greenhouse produce growers.

When Fluence first started, it was really convincing people that LED technology was a way to go. There were a lot of HPS grow lights out in the world, and it was just starting to come to be affordable but also showing growers that by using a different type of technology to grow the plants, they could actually get more out of what they were getting, Cohen said.

Interested in learning more about the Benzinga Cannabis Capital Conference? Get more information here.

This post contains sponsored advertising content. This content is for informational purposes only and is not intended to be investing advice.

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Know What You Want To Achieve Fluence CEO Cautions Companies Against Adopting Just Any Technology For T - Benzinga

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PhD Program | Bioengineering

PhD Program in Bioengineering

Study for the PhD in Bioengineering combines rigorous coursework with novel research mentored by Stanford faculty, enabling students to develop as independent intellectual leaders working at the interfaces between biology, medicine, engineering, and the physical sciences. Our mission is to train students at the intersection of biomedicine and engineering in both academia and the burgeoning biomedical and biotechnology industries. Applicants should have a commitment to learning and a passion for research.

On average, the program is completed in five to six years, depending on the students research and progress.First-year students have the opportunity to rotate in three different labs before selecting their dissertation advisor (PI). Many students choose to join labs in the Bioengineering department, but we also have several students who join labs within the Schools of Engineering, Medicine, and Humanities & Sciences.

The Bioengineering Department also believes that teaching is an important part of graduate-level education in Bioengineering. Consequently, serving as a teaching assistant for two courses is a requirement for the PhD in Bioengineering. Current BioE and Stanford graduate students can learn more about our TAopportunitiesvia our BioE intranet.

Along the way to the PhD degree, students have clear anddefined milestones that help guide them to the successful completion of their dissertation andoral defense. More information regarding our PhD degree requirements and milestones can be found in the Stanford Bulletin.

BioE PhD students come from a wide variety of personal, educational, and professional backgrounds. We welcome applicants with undergraduate degrees in diverse STEM disciplines including Bioengineering, Biophysics, Chemical Engineering, Electrical Engineering, Biochemistry, Physics, and Chemistry. There are no specific course requirements for applicants, but a competitive candidate will have strong quantitative training in mathematics and the physical sciences, along with a background in biology acquired through coursework or prior research. All admitted graduate students should be prepared to take the core coursesin the first year.

We welcome students entering directly from undergraduate programs, as well as applicants with MS degrees and/or substantial work experience in areas ranging from biotechnology to robotics. Our admissions committee will look for evidence that an applicant has demonstrated qualities of successful PhD students such as creativity, self-initiative, dedication, and perseverance. We also aim to admit bioengineering students who can thrive at Stanford because their specific interests and aspirations are well-matched with the research of our faculty and the educational environment of our department

The Bioengineering community is home to over 165 PhD students who come from a variety of diverse backgrounds and experiences. Below is a snapshot of our BioE PhD cohort that started in Fall 2020.

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PhD Program | Bioengineering

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