By Paul Glanville, PE, Senior Engineer, Gas Technology Institute
In many ways the engineer is practical in nature, comfortable in balancing the visions of designers, the promise of science, and the realities of schedules and budgets. Often paraphrasing Voltaire, who said "the perfect is the enemy of the good", the practical engineer may be accused of being too conservative or stifling creativity. It is through this practical nature, however, that amazing technologies become realities that impact our lives. An example of such a practical engineer is Elon Musk, an innovator taking risks and achieving great things through his two major endeavors: developing high-performance, market ready electric vehicles with Tesla Motors and successful commercial space exploration with SpaceX.
Elon Musk in Mission Control---SpaceX CEO and Chief Designer Elon Musk watches Dragon's progress inside of SpaceX Mission Control in Hawthorne, CA. May 31st, 2012. Photo Credit: SpaceX
Raised in South Africa, Musk has said in interviews that he was initially drawn to computer programming, something that stuck with him as he abruptly dropped out of a high energy physics graduate program at Stanford University to pursue several internet startup companies, most notably as co-founded of PayPal. After these early successes, Musk transitioned to focus on two issues with technological solutions, the future of human space exploration and the transition to a clean energy economy. In 2002 and 2003, Musk co-founded SpaceX, a private space transport company, and Tesla Motors respectively, which he is currently CEO of both companies. Tackling the capital-intensive automotive and aerospace industries with the focus of an engineer, under Musk's leadership SpaceX and Tesla Motors have recently reached significant milestones; leading Popular Mechanics awarded Musk with the 2012 Breakthrough Leadership Award:
- As a contractor to NASA in a post-shuttle era, SpaceX successfully launched and docked its spacecraft Dragon with the International Space Station earlier this year, making history as the first non-governmental entity to do so.
- Following the critical success of its all-electric high performance luxury car, the Roadster, Tesla began delivery of its long awaited Model S all-electric sedan earlier this year, with plans to produce 5,000 models from their Silicon Valley production facility. Following the first delivery of the Roadster in 2008, Tesla has made an undeniable impact on the electric car industry, with many major automakers releasing mass-market electric vehicles since then.
While Mr. Musk does not have an engineering degree per say, he holds degrees in Physics and Economics from the University of Pennsylvania, few dispute his assertion, in response to his focus on technical details as CEO of Tesla and Space X, "I'm an engineer, so what I do is engineering. That's what I'm good at." Even as a CEO, his close involvement with design, engineering, and critical technical decisions is unique amongst his peers, stating that he doesn't "know how they make any kind of sensible decision." This echoes an axiom of successful innovation from Bell Labs, recalled by Jon Gertner's panoramic history The Idea Factory, that leadership should have technical competency, from first-line managers all the way to CEO. This in no way diminishes Musk's focus on the marketing and business side of his companies, critical to their initial startup and sustained growth. As a practical engineer, he recognizes that particularly in clean tech, a technical success that fails in the market makes little impact on addressing current societal issues. As he puts it in an automobile magazine interview (August 2012), he references his approach with Tesla:
“I believe you've got to have a compelling product at the end of the day. Otherwise you're just going to address a very small segment of the population that cares enough to suffer through this horrible product. And it's just never going to scale.”
In addition to showing that thoughtful risk taking while sharing ASME’s vision of “applying engineering knowledge for improving the quality of life”, Musk illustrates that an engineer’s work and business know-how can lead to amazing results. Musk also embodies the kind of engineering leadership that is needed as organizations, industry, and governments work together to tackle the interrelated issues of energy, climate, and poverty. For the early career engineer to grow into their roles as our next generation of leaders tackling these issues, we are fortunate to have innovative role models like Elon Musk.