Science & Technology

50 Items

The Anderson Memorial Bridge in 2009, three years before rehabilitation began.

Flickr

Analysis & Opinions - The Boston Globe

A lesson on infrastructure from the Anderson Bridge fiasco

| May 25, 2016

SOMETIMES SMALL stories capture large truths. So it is with the fiasco that is the repair of the Anderson Memorial Bridge, connecting Boston and Harvard Square. Rehabilitation of the 232-foot bridge began in 2012, at an estimated cost of about $20 million; four years later, there is no end date in sight and the cost of the project is mushrooming, to $26.5 million at last count.

This glacial pace of implementation does not reflect the intrinsic technical difficulty of the task. For comparison, the Anderson Bridge itself was originally completed in just 11 months in 1912. General George Patton constructed nearly 40 times as much bridging in six months as American soldiers crossed the Rhine to win World War II. And even modern-day examples abound; for instance, in 2011, 14 bridges in Medford were fixed in just 10 weekends. In contrast, the lapses exposed by the Anderson Bridge project hold key lessons for America’s broader inability to solve its infrastructure problems.

U.S. Secretary of Energy Ernest Moniz (left) and Secretary of State John Kerry (center) meeting in Vienna to discuss the Iran nuclear agreement.

Carlos Barria/Agence France-Presse

Newspaper Article - The New York Times

Crucial Questions Remain as Iran Nuclear Talks Approach Deadline

| June 28, 2015

Iran’s top nuclear negotiator was heading back to Tehran on Sunday to consult with his nation’s leadership, as negotiators remained divided over how to limit and monitor Tehran’s nuclear program and even on how to interpret the preliminary agreement they reached two months ago.

David Keith, on The Colbert Report, discusses climate engineering with a skeptical Stephen Colbert (December 2013).

Comedy Central

- Belfer Center for Science and International Affairs, Harvard Kennedy School Belfer Center Newsletter

Spotlight: David Keith

| Summer 2015

David Keith is the Gordon McKay Professor of Applied Physics at Harvard’s School of Engineering and Applied Sciences and Professor of Public Policy at Harvard Kennedy School, housed at the Belfer Center. He has worked at the interface between climate science, energy technology, and public policy for 20 years and has received numerous honors for his work, including the MIT prize for excellence in experimental physics and TIME magazine’s selection as one of its Heroes of the Environment.

News - Belfer Center for Science and International Affairs, Harvard Kennedy School

Translating Rhetoric into Reality: How to Promote More Women Leaders in Science and Journalism

    Author:
  • Jacqueline Tempera
| April 13, 2015

During a candid conversation at the Harvard Kennedy School, prominent women leaders in the science and media industries recently talked about their efforts to remedy this. They ignited a fervent discussion and identified achievable goals that both professional women and their male and female bosses can work toward. The event, “Sexism, Science, and Science Writing: Promoting Women Leaders in the Lab and the Newsroom,” drew a standing-room-only crowd of more than 100 women and men of all ages—from a female high school student to senior astrophysicists and science writers.

UMass Amherst campus

UMass Amherst

Analysis & Opinions - Belfer Center for Science and International Affairs, Harvard Kennedy School

Don't Ban Students Based on Nationality: What Can We Learn from Europe?

| March 2, 2015

The decision of the University of Massachusetts Amherst to categorically ban Iranians was not only gross discrimination, but also a violation of academic freedom. A similar policy was adopted in the Netherlands a few years ago and later rebuked by the Dutch Supreme Court. Universities must remain open to people from all races, religions, and nationalities.

The SPICE project investigates the feasibility of 1 so-called geoengineering technique: releasing small particles into the stratosphere, which then reflect a few % of incoming solar radiation, with the effect of cooling the Earth with relative speed.

Wikimedia CC

Analysis & Opinions - The Washington Post

What's the Right Temperature for the Earth?

| January 29, 2015

"...[A]ttention is turning to solar geoengineering, also known as solar radiation management. Although the concept of injecting sulfur dioxide into the stratosphere has so far been tested only using computer simulations, there's high confidence that it would work to cool the Earth because it would mimic the well-understood cooling effect of large volcanic eruptions."

Discussion Paper - Energy Technology Innovation Policy Project, Belfer Center

Energy Technology Expert Elicitations for Policy: Workshops, Modeling, and Meta-analysis

| October 2014

Characterizing the future performance of energy technologies can improve the development of energy policies that have net benefits under a broad set of future conditions. In particular, decisions about public investments in research, development, and demonstration (RD&D) that promote technological change can benefit from (1) an explicit consideration of the uncertainty inherent in the innovation process and (2) a systematic evaluation of the tradeoffs in investment allocations across different technologies. To shed light on these questions, over the past five years several groups in the United States and Europe have conducted expert elicitations and modeled the resulting societal benefits. In this paper, the authors discuss the lessons learned from the design and implementation of these initiatives.