Per Entertainment Weekly:

by Maricela Gonzalez on Jul 13, 2013 at 4:59PM @maricelag21

There isn’t much entertainment out there for ladies of the geek persuasion — or to be more accurate, geek ladies and geek gentlemen attracted to other gentlemen. Well, at least there isn’t much marketed directly to us. But we all know the dirty little secret of being a geek lady in a predominately geek man’s world — there are a lot of hot guys in sci-fi movies. Pacific Rim, which opened yesterday, is no exception. SOME SPOILERS AHEAD!

Pacific Rim is in no way a perfect movie. It’s plagued with corny dialogue, underdeveloped characters, and a predictable, anticlimactic ending. And like most sci-fi movies, it doesn’t pass the Bechdel test. The Bechdel test, named after cartoonist Alison Bechdel, requires a movie to include at least two named female characters who talk to each other about something besides a man. There are two named women in Pacific Rim — Mako Mori (Rinko Kikuchi) and Lt. Sasha Kaidanovsky (Heather Doerksen). However, Doerksen has a small role, says a few lines (most of which are directed toward her husband and copilot), and dies in the middle of the movie. Kikuchi’s Mako is a central character with a dynamic story arc though she’s less active than her male counterparts. Unlike many ladies in sci-fi, she is not objectified or criticized solely on the basis of her gender — a conscious decision made by director Guillermo del Toro.

So what is there for a geeky woman to enjoy in Pacific Rim? Well, there’s plenty of male eye candy. Charlie Hunnam plays Raleigh Becket, who returns from a five-year hiatus to help fight alien kaijus. Without his flesh-toned beard and biker hair from Sons of Anarchy, Hunnam can’t hide his striking features from the audience — or his costars. Mako practically screams “I’m the audience’s surrogate!” as she looks through a peephole at Raleigh’s shirtless torso, marked with tattoo-like scars from his previous battles. The multiple voyeuristic peephole shots recalls Psycho, but the fact that a guy is the object of the peeping offers a clever role reversal.

While Mako and Raleigh don’t so much as kiss on screen, their connection is undeniable. Raleigh and Mako’s sparring match is quite sensual, which, of course, discomfits her adoptive father, Marshall Stacker Pentecost (Idris Elba). Speaking of Elba, he proves that the tailoring of a quality suit can do wonders for the male form. With precise military haircut, expressive eyes, and an authoritative but ultimately loving demeanor, Elba proves to be a no-nonsense leader of the jaeger fighters battling the kaiju. Plus, he gets many of the film’s best lines, all delivered in his smooth, booming British accent.

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True Blood‘s new addition Rob Kazinsky, as the inexplicably douchey jaeger fighter Chuck Hansen, might have been unwatchable if he wasn’t so hot. It’s never clear why Chuck is such an egotistical jerk — maybe he’s secretly in love with Raleigh. (If the film isn’t going to show any other reason for his brusque manner, then I’m going to make up my own.) I just wish I could have cared more about his tearful goodbye scene with his father and dog. Of course, it doesn’t hurt that his dad is played by Max Martini — I still miss Martini’s stony, almost too loyal bodyguard Frank Stevens on Revenge.

There’s a guy for just about everyone’s taste in Pacific Rim. For fans of the traditionally handsome, Homeland‘s Diego Klattenhoff briefly pops up as Raleigh’s brother, Yancy (as if to confirm that Morena Baccarin’s Jessica Brody should never have broken things off with good guy Mike). If you go for wise-cracking, goofy hipsters, there’s Charlie Day of It’s Always Sunny in Philadelphia. There’s even Burn Gorman if you’re drawn to Type-A, hunchbacked-from-too-many-hours-online scientists.

Regardless of the politics of objectification and gender representation, Pacific Rim is a fun spectacle — giant mechas, grotesque monsters, epic sound design, and attractive men galore. I’m still holding out for a sci-fi movie in which women aren’t mere tokens, but for now I’ll take what I can get.

Jul 14 2013

‘Glee’ Star Cory Monteith Dies at 31

http://www.hollywoodreporter.com/news/glee-star-cory-monteith-dies-584965

The actor was found dead at Vancouver’s Fairmont Pacific Rim hotel.

Glee star Cory Monteith was found dead at Vancouver’s Fairmont Pacific Rim hotel Saturday, The Hollywood Reporter has confirmed. He was 31.

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The actor was found at noon Saturday on the hotel’s 21st floor, Vancouver police said in a news conference. He checked into the hotel on July 6, and was expected to check out Saturday. When Monteith missed his checkout time at noon, hotel staff went to his room and discovered his body.

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Police said Monteith was with other people Friday night. An examination of hotel video footage showed him returning to his room alone early Saturday morning. Police believe he was alone when he died. No cause of death was given and no foul play is suspected, police said. Police are questioning the people he was with Friday night.

In March, Monteith voluntarily checked himself into rehab for substance abuse. He previously checked into rehab when he was 19. It was unclear why the British Columbia-native had checked into the Vancouver hotel.

Family, Vancouver police said, have just been informed. He had been deceased for several hours when his body had been discovered.

“Cory Monteith’s family statement: “We are in shock and mourning this tragic loss.”bit.ly/15sIi92Representatives for Glee producers 20th Century Fox Television, Fox, series co-creator Ryan Murphy and Lea Michele did not immediately returns THR‘s requests for comment.

“We are so saddened to confirm that the reports on the death of Cory Monteith are accurate. We are in shock and mourning this tragic loss,” representatives for the actor told THR in a statement.

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Monteith has played Finn Hudson, the lovable boy-next door on Glee, since it debuted in 2009. He also has a role in the upcoming indie All the Wrong Reasons.

Monteith’s Glee co-star Mark Salling, who played Finn’s best friend Puck, took to Twitter on Saturday as news of his friend’s death had spread with a poignant, “no.” Castmate Dot-Marie Jones used all-caps to convey her grief.

Jul 13 2013

Amar G. Bose, Acoustic Engineer and Inventor, Dies at 83

From the NY Times:

<nyt_text>

Amar G. Bose, the visionary engineer, inventor and billionaire entrepreneur whose namesake company, the Bose Corporation, became synonymous with high-quality audio systems and speakers for home users, auditoriums and automobiles, died on Friday at his home in Wayland, Mass. He was 83.

Enlarge This Image

Michael Quan

Amar G. Bose, chairman of Bose, with a Wave radio in 1993.

His death was confirmed by his son, Dr. Vanu G. Bose.

As founder and chairman of the privately held company, Dr. Bose focused relentlessly on acoustic engineering innovation. His speakers, though expensive, earned a reputation for bringing concert-hall-quality audio into the home.

And by refusing to offer stock to the public, Dr. Bose was able to pursue risky long-term research, such as noise-canceling headphones and an innovative suspension system for cars, without the pressures of quarterly earnings announcements.

In a 2004 interview in Popular Science magazine, he said: “I would have been fired a hundred times at a company run by M.B.A.’s. But I never went into business to make money. I went into business so that I could do interesting things that hadn’t been done before.”

A perfectionist and a devotee of classical music, Dr. Bose was disappointed by the inferior sound of a high-priced stereo system he purchased when he was an M.I.T. engineering student in the 1950s. His interest in acoustic engineering piqued, he realized that 80 percent of the sound experienced in a concert hall was indirect, meaning that it bounced off walls and ceilings before reaching the audience.

This realization, using basic concepts of physics, formed the basis of his research. In the early 1960s, Dr. Bose invented a new type of stereo speaker based on psychoacoustics, the study of sound perception. His design incorporated multiple small speakers aimed at the surrounding walls, rather than directly at the listener, to reflect the sound and, in essence, recreate the larger sound heard in concert halls. In 1964, at the urging of his mentor and adviser at M.I.T., Dr. Y. W. Lee, he founded his company to pursue long-term research in acoustics. The Bose Corporation initially pursued military contracts, but Dr. Bose’s vision was to produce a new generation of stereo speakers.

Though his first speakers fell short of expectations, Dr. Bose kept at it. In 1968, he introduced the Bose 901 Direct/Reflecting speaker system, which became a best seller for more than 25 years and firmly entrenched Bose, based in Framingham, Mass., as a leader in a highly competitive audio components marketplace. Unlike conventional loudspeakers, which radiated sound only forward, the 901s used a blend of direct and reflected sound.

Later inventions included the popular Bose Wave radio and the Bose noise-canceling headphones, which were so effective they were adopted by the military and commercial pilots.

A Bose software program enabled acoustic engineers to simulate the sound from any seat in a large hall, even before the site was built. The system was used to create sound systems for such diverse spaces as Staples Center in Los Angeles, the Sistine Chapel and the Masjid al-Haram, the grand mosque in Mecca.

In 1982, some of the world’s top automakers, including Mercedes and Porsche, began to install Bose audio systems in their vehicles, and the brand remains a favorite in that market segment.

Dr. Bose’s devotion to research was matched by his passion for teaching. Having earned his bachelor’s, master’s and doctorate degrees in electrical engineering at the Massachusetts Institute of Technology in the 1950s, Dr. Bose returned from a Fulbright scholarship at the National Physical Laboratory in New Delhi and joined the M.I.T. faculty in 1956.

He taught there for more than 45 years, and in 2011, donated a majority of his company’s shares to the school. The gift provides M.I.T. with annual cash dividends. M.I.T. cannot sell the shares and does not participate in the company’s management.

Dr. Bose made a lasting impression in the classroom as well as in his company. His popular course on acoustics was as much about life as about electronics, said Alan V. Oppenheim, an M.I.T. engineering professor and a longtime colleague.

“He talked not only about acoustics but about philosophy, personal behavior, what is important in life. He was somebody with extraordinary standards,” Professor Oppenheim said.

Dr. William R. Brody, head of the Salk Institute in the La Jolla neighborhood of San Diego, was a student in Dr. Bose’s class in 1962. He told Popular Science: “His class gave me the courage to tackle high-risk problems and equipped me with the problem-solving skills I needed to be successful in several careers. Amar Bose taught me how to think.”

Amar Gopal Bose was born on Nov. 2, 1929, in Philadelphia. His father, Noni Gopal Bose, was a Bengali freedom fighter who was studying physics at Calcutta University when he was arrested and imprisoned for his opposition to British rule in India. He escaped and fled to the United States in 1920, where he married an American schoolteacher.

At age 13, Dr. Bose began repairing radio sets for pocket money for repair shops in Philadelphia. During World War II, when his father’s import business struggled, Dr. Bose’s electronics repairs helped support the family. After graduating from high school, Dr. Bose was admitted to M.I.T. in 1947, where he studied under the mathematician Norbert Weiner, along with Dr. Lee.

An avid badminton player and swimmer, Dr. Bose spent several weeks each year at his vacation home in Hawaii.

Dr. Bose and his ex-wife, Prema, had two children, Vanu, now the head of his own company, Vanu Inc. in Cambridge, Mass., and Maya Bose, who survive him, as does his second wife, Ursula, and one grandchild.

Jul 13 2013

Full Metal Panic

Full Metal Panic is a science fiction, action and romance series. In its vision of the future, mankind has large mech’s for fighting with along with something called the Lambda Driver, which takes the thoughts and emotions of the operator and then puts it into action. The premise of the series is that the technology is decades, or more, ahead of what mankind should have and has been labeled ‘black technology.’ There are people, called Whispered, who are born with the knowledge (why and how is never fully explained) and are coveted by the various governments and terrorist organizations.

A mercenary group named Mithril, whose technology is decades ahead of the US or Soviet Union, is tasked with either rescuing or protecting the whispered. This is where the story starts. It is centered around a girl named Kaname Chadori, who is the latest whispered candidate. In order to protect her, a teen aged mercenary soldier named Sousuke Sagara is ordered to attend her high school and protect her. Comedic high jinx take place as Sousuke tries to fit into school and how many weapons are on him at all times. This last throughout the series…even as it takes a darker turn further into it.

All in all, the series is worth watching and is funny. It can get raunchy at times (not like the follow up Full Metal Panic Fumoffu) but is still worth watching. I endorse it.

Jul 13 2013

Ryoko…that’s my name

You’ll have to run a lot faster than that earthling.

Hey try not to hurt yourself. I’d like to do that for you.

Hey! No fair cheating!

Jul 13 2013

Voyagers 1 and 2

Most people reading this blog are probably younger than I am and haven’t heard of the Voyager program. They were a pair of probes launched in the mid 1970’s, each powered by a small reactor, that have explored the Outer Solar System and now are headed for interstellar space.

This is a link to images of Voyager and what it’s taken of the planets Jupiter, Saturn, Uranus and Neptune. It’ll be informative and enjoyable to see what mankind has accomplished.

http://voyager.jpl.nasa.gov/imagesvideo/imagesofvoyager.html

Jul 13 2013

Voyager 1 spacecraft’s latest find takes the edge off the solar system

per:

http://www.guardian.co.uk/science/2013/jul/09/nasa-voyager-solar-system-edge

Joel Achenbach for the Washington Post
Guardian Weekly, Tuesday 9 July 2013 08.59 EDT

The edge of the solar system has no edge, it turns out. It has a fuzzy transitional area, not quite solar system and not quite interstellar space.

This basic fact of our star’s environment has been discovered byVoyager 1, one of the most remarkable spaceships ever built. Our premier scout of deep space, Voyager 1, is currently 11bn miles from the sun, beaming data to Earth as it scoots at 24,000kmph toward the constellation Ophiuchus.

Scientists had assumed that Voyager 1, launched in 1977, would have exited the solar system by now. That would mean crossing the heliopause and leaving behind the vast bubble known as theheliosphere, which is characterised by particles flung by the sun and by a powerful magnetic field.

The scientists’ assumption turned out to be half-right. On 25 August, Voyager 1 saw a sharp drop-off in the solar particles, also known as the solar wind. At the same time, there was a spike in galactic particles coming from all points of the compass. But the sun’s magnetic field still registers, somewhat diminished, on the spacecraft’s magnetometer. So it’s still in the sun’s magnetic embrace, in a sense.

This unexpected transitional zone, dubbed the “heliosheath depletion region,” is described in three new papers about Voyager 1 published online last month by the journal Science.

“There were some surprises,” said Ed Stone, who has been the lead scientist of Nasa‘s Voyager program since 1972. “We expected that we would cross a boundary and leave all the solar stuff behind and be in all the interstellar stuff. It turned out, that’s not what happened.” So, how big is this transitional zone at the edge of the solar system?

“No one knows,” said Stone, 77, a professor of physics at the California Institute of Technology and the former head of NASA’s Jet Propulsion Laboratory, Voyager’s home base. “It’s not in any of the models. We don’t know. It could take us a few more months, it could take us several more years to get through it.”

The dimensions and nature of the heliosphere are not a wholly esoteric matter. The sun’s magnetic field deflects much of the radiation coming from other parts of the galaxy that was created in supernova explosions. Interstellar space is not a benign environment. The heliosphere’s features make life easier for blue planets such as Earth.

Voyager 1 can be counted as one of the great exploratory craft in history, and none has gone farther, nor cruised steadily at such astonishing speed (a few have briefly gone faster while falling into the sun). Two Voyager probes were launched in 1977. Both spaceships carried a gold-plated record crammed with digital information about human civilization, including mathematical formulas, an image of a naked man and woman, whale vocalizations, and clips of classical and rock-and-roll music. (The famous joke was that the aliens listened to the record and replied, “Send more Chuck Berry.”)

The two Voyagers embarked on what was called the Grand Tour, taking advantage of an orbital positioning of the four outer planets that happens less than once a century. Voyager 1 flew by Jupiter and Saturn before angling “north,” as astronomers would describe it. (There’s no up or down in space, but there is a north or south relative to the orbital plane of the planets.) Voyager 2 went past Jupiter and Saturn and flew by Uranus and Neptune before heading “south.”

The images of those planets and their moons, now taken for granted, were stunning triumphs of the Voyager mission. And in 1990, Voyager 1, nearly 4 billion miles from the sun, turned its camera toward Earth and took an image of what Carl Sagan called the “pale blue dot” of our home planet.

Now Voyager 1 is 124 astronomical units from the sun – one AU being roughly the mean distance from Earth to the sun, or about 150m kilometres. Voyager 2 is at 102 AU.

These spacecraft are not immortal, even if sometimes they act like it. They have a power supply from the radioactive decay of plutonium-238, which generates heat. The half-life of that system is 88 years. Small thrusters occasionally are fired to keep Voyager 1’s 23-watt radio antenna pointed toward Earth, where the faint signals are picked up on huge arrays of radio telescopes in the United States, Spain and Australia. But Stone anticipates that weakening power will force scientists to start shutting down scientific instruments on Voyager 1 in 2020 and that by 2025, the last instrument will be turned off.

“It changed the way we view our place in the cosmos,” said Bill Nye, the “Science Guy” who is chief executive of the Planetary Society in Pasadena, Calif. He said the new discovery by Voyager 1 is a classic example of why we explore: “What are you going to find over the unknown horizon? We don’t know. That why we explore out there.”

NASA’s associate administrator for space technology, Michael Gazarik, said of Voyager 1’s durability: “It is amazing, especially in the harsh environment of space. This piece of hardware has a life of its own.”

In 40,000 years, Voyager 1 will be closer to another star (with the romantic name AC+79 3888) than to the sun. And then what? It will just keep going – a silent, dark craft on a seemingly eternal journey.

“It will be orbiting the center of the Milky Way galaxy essentially for billions of years, like all the stars,” said Stone of what has been, for him, the spacecraft of a lifetime.