Tag Archives: Jessica Werk

The universe is big, even in small spaces

The universe is pretty vast even in confined spaces. That was the lesson given on opposite ends of the size scale at the most recent Astronomy on Tap Seattle event hosted at Hilliard’s Beer Taproom by University of Washington graduate students in astronomy.

Ethan Kruse

UW astronomy graduate student Ethan Kruse said the universe is a big place, and it will take some technological advances to reach Alpha Centauri in 20 years. Photo: Greg Scheiderer.

Grad student Ethan Kruse was all set to give a talk that concluded we would never even get out of our solar system because it is way too big. Then a few weeks before the talk Stephen Hawking and friends announced their plan for getting all the way to neighboring star Alpha Centauri in 20 years through a project called Breakthrough Starshot.

“If I’m disagreeing with Stephen Hawking,” Kruse recalled thinking, “I should probably stop for a minute and reevaluate my thesis.”

Kruse remained on point about the mind-boggling scale of the universe. He said that if our Sun was the size of a basketball sitting on the stage of Hilliard’s, Earth would be the size of a sesame seed in the back of the room, 84 feet away, and the orbiting Moon would be the size of a grain of salt. At this scale Jupiter would be a golf ball on the Ballard Bridge and Pluto would be a grain of salt about a kilometer away—about the distance to Bad Jimmy’s Brewing Company, which served as the venue for Astronomy on Tap Seattle for its first year. Alpha Centauri, in this set-up, is some 4,400 miles away—in London or Tokyo.

Kruse pointed out that the fastest spacecraft we have built so far, New Horizons, took a decade to get to Pluto.

“We went from Hilliard’s to Bad Jimmy’s in ten years,” he observed. “Don’t worry guys, we’re going to go to London in 20 years!”

The idea behind Starshot is that a super-light craft with a light sail could be accelerated by lasers to up to 20 percent of the speed of light. Kruse outlined a litany of technological challenges with the concept, including the ability to generate sufficient laser power, creating an adequately reflective material for the sails, being able to accurately aim the lasers at great distances, and shielding the craft from possible collisions with space debris. Still, he concluded, the idea is worth exploring, especially since the same technology could be used to explore the solar system more quickly.

“This is honestly the most realistic thing that anyone has proposed so far for getting to any other star system,” Kruse said.

It will, however, take a great deal of research and development.

“Don’t necessarily count on this before you die,” Kruse concluded. “Space is big.”

Jessica Werk

UW astronomy Prof. Jessica Werk says your atoms took quite a journey to become you. Photo: Greg Scheiderer.

Professor Jessica Werk, one of the newest hires onto the astronomy faculty at the University of Washington, also used sports equipment to illustrate her talk, “The History of You: The Rather Tumultuous Past of the Atoms in Your Body.” Werk pointed out that atoms are mostly empty space. If the nucleus of an atom were the size of a baseball, the nearest electrons would be a football field away.

After the Big Bang the universe was mostly light atoms: hydrogen and helium and a few others. Where did the carbon and calcium and other heavier stuff we’re made of come from?

“All evidence suggests that these atoms were fused in the cores of very, very massive stars twelve-and-a-half billion years ago,” Werk said. “Since then they have been on an absolutely crazy, long, sometimes violent journey to end up in your body 93 million miles from the Sun on this speck named Earth.”

Those atoms took a somewhat circuitous route to get here.

“Sixty percent of the atoms in your body we at one point outside of the galaxy in the circumgalactic or intergalactic medium,” Werk said. We don’t really know how they got here, but the best theory is that the atoms tend to cool off, and the gas rains back down on the galaxy, collapsing in star formation or becoming part of the debris disk out of which planets form.

There’s some mind-bending scale at the atomic level, too. Werk pointed out that there are 1023 atoms in a breath of air.

“Each breath-full of air contains more atoms than the number of breath-fulls of air in the entire Earth’s atmosphere,” she said. “What that means is that it is very likely that the last breath of air you just took contained at least one oxygen atom from the first breath of air that you ever took as a human being on planet Earth.”

That reminds us of a recent post by Ethan Siegel on the blog Starts With a Bang, in which he concluded that we all probably share atoms that were once part of King Tut or any other historical figure you might name.

AOT crowd

Astronomy on Tap Seattle outgrew Bad Jimmy’s, and pretty well packed the larger Hilliard’s at its first event there in April. Photo: Greg Scheiderer.

“The matter that makes up your physical body is part of a huge universe that is continually evolving and recycling the material in it into new forms,” Werk concluded.

The next Astronomy on Tap Seattle event is set for 7 p.m. Wednesday, May 25 at Hilliard’s. Astronomy Prof. Emily Levesque and graduate student John Ruan will give talks about some of the strangest celestial objects ever discovered or theorized. People outnumbered seats at the April event, and so the organizers suggest that you can bring a lawn chair and create your own premium seating.

Astronomy on Tap Seattle debuts in new venue

One of our favorite local astronomy events moves to a new venue for the first time and is the highlight of our calendar this week.

AoT April 27, 2016At this month’s Astronomy on Tap Seattle the newest University of Washington professor of astronomy, Jessica Werk, will give a talk titled, “The History of You: The Rather Tumultuous Past of the Atoms in Your Body.” UW graduate student Ethan Kruse will give a talk titled, “To Infinity and Beyond: The Mind-boggling Scale of the Universe.” The event will be held at 7 p.m. Wednesday, April 27 at Hilliard’s Beer Taphouse in Ballard.

Astronomy on Tap Seattle is a free monthly event organized by graduate students in astronomy at the University of Washington. It spent its first year at Bad Jimmy’s Brewing Company but has outgrown that space, and is moving to the larger Hilliard’s just a hop and a skip up Leary Way.

Dawn in the asteroid belt

Ron HobbsThe Eastside Astronomical Society will hold its monthly meeting at 7 p.m. Wednesday, April 27 at the Lake Hills Library in Bellevue. NASA Solar System Ambassador Ron Hobbs will give a presentation about our modern understanding of the belt of minor planets between Mars and Jupiter. He will discuss the Juno mission that is on its way to Jupiter and what we might learn about the giant planet’s role in the creation of the feature we call the asteroid belt.

Closeup of Pluto

Grundy

Will Grundy. Photo: Lowell Observatory.

We won’t even have all of the data from Pluto back from New Horizons until late this year, but we’ve already learned a lot about the former ninth planet. Astronomer Will Grundy of Lowell Observatory will be at the University of Washington this week to talk about some of the scientific highlights and puzzles that the New Horizons science team is investigating. He will also briefly touch on plans for January 2019 when New Horizons will get the first up-close look at a small Kuiper belt object. The talk , part of the UW astronomy colloquia series, will be at 4 p.m. Thursday, April 28 in room A102 of the Physics/Astronomy Building on the UW campus in Seattle.

Up in the sky

You can catch transits of Jupiter’s moons Io and Europa on Friday evening. This Week’s Sky at a Glance from Sky & Telescope magazine and The Sky This Week from Astronomy have other observing highlights for the week.