Pages

Monday, June 25, 2012

Marie Curie and her Daughters

I've just read this bok and found it fascinating.

Marie Curie and Her Daughters, by Shelley Emling.

It deals with Curie's life after the death of her husband, after her being bestowed with her Nobel Prizes (she's the first person - person, not just woman - to ever get a Nobel Prize in two different disciplines) and how her actions molded not only her biological daughters, but also women everywhere.

Marie Skłodowska-Curie (7 November 1867 – 4 July 1934) was a French-Polish physicist and chemist, famous for her pioneering research on radioactivity. She was the first person honored with two Nobel Prizes[2]—in physics and chemistry. She was the first female professor at the University of Paris, and in 1995 became the first woman to be entombed on her own merits in the Panthéon in Paris.




She was born Maria Salomea Skłodowska ([ˈmarja salɔˈmɛa skwɔˈdɔfska]) in Warsaw, in what was then the Kingdom of Poland. She studied at Warsaw's clandestine Floating University and began her practical scientific training in Warsaw. In 1891, aged 24, she followed her older sister Bronisława to study in Paris, where she earned her higher degrees and conducted her subsequent scientific work. She shared her 1903 Nobel Prize in Physics with her husband Pierre Curie and with the physicist Henri Becquerel. Her daughter Irène Joliot-Curie and son-in-law, Frédéric Joliot-Curie, would similarly share a Nobel Prize. She was the sole winner of the 1911 Nobel Prize in Chemistry. Skłodowska-Curie was the first woman to win a Nobel Prize, the only woman to date to win in two fields, and the only person to win in multiple sciences.

Her achievements included a theory of radioactivity (a term that she coined[4]), techniques for isolating radioactive isotopes, and the discovery of two elements, polonium and radium.[5] Under her direction, the world's first studies were conducted into the treatment of neoplasms, using radioactive isotopes. She founded the Curie Institutes in Paris and Warsaw, which remain major centres of medical research today.

While an actively loyal French citizen, Skłodowska-Curie (she used both surnames) never lost her sense of Polish identity. She taught her daughters the Polish language and took them on visits to Poland. She named the first chemical element that she discovered – polonium, which she first isolated in 1898 – after her native country. During World War I she became a member of the Committee for a Free Poland (Komitet Wolnej Polski). In 1932, she founded a Radium Institute (now the Maria Skłodowska–Curie Institute of Oncology) in her home town, Warsaw, headed by her physician-sister Bronisława. Curie died in 1934 of aplastic anemia brought on by her years of exposure to radiation

Maria Skłodowska was born in Warsaw, in the Russian partition of Poland, on 7 November 1867, the fifth and youngest child of well-known teachers Bronisława and Władysław Skłodowski. Maria's older siblings were Zofia (born 1862), Józef (1863), Bronisława (1865) and Helena (1866).
Maria's paternal grandfather Józef Skłodowski had been a respected teacher in Lublin, where he taught the young Bolesław Prus.[9] Her father Władysław Skłodowski taught mathematics and physics, subjects that Maria was to pursue, and was also director of two Warsaw gymnasia for boys, in addition to lodging boys in the family home. Maria's mother Bronisława operated a prestigious Warsaw boarding school for girls; she suffered from tuberculosis and died when Maria was twelve.
Maria's father was an atheist; her mother—a devout Catholic.[10] Two years earlier Maria's oldest sibling, Zofia, had died of typhus. The deaths of her mother and sister, according to Robert William Reid, caused Maria to give up Catholicism and become agnostic.[11]
When she was ten years old, Maria began attending the boarding school that her mother had operated while she was well; next Maria attended a gymnasium for girls, from which she graduated on 12 June 1883. She spent the following year in the countryside with relatives of her father's, and the next with her father in Warsaw, where she did some tutoring.
On both the paternal and maternal sides, the family had lost their property and fortunes through patriotic involvements in Polish national uprisings aiming at the restoration of Poland's independence (most recent of which was the January Uprising). This condemned each subsequent generation, including that of Maria, her elder sisters and her brother, to a difficult struggle to get ahead in life.[12]
Elderly Żorawski
At a Warsaw lab here, in 1890–91, Skłodowska did her first scientific work.
Maria made an agreement with her sister, Bronisława, that she would give her financial assistance during Bronisława's medical studies in Paris, in exchange for similar assistance two years later.[13] In connection with this, Maria took a position as governess: first with a lawyer's family in Kraków; then for two years in Ciechanów with a landed family, the Żorawskis, who were relatives of her father. While working for the latter family, she fell in love with their son, Kazimierz Żorawski, which was reciprocated by this future eminent mathematician. His parents, however, rejected the idea of his marrying the penniless relative, and Kazimierz was unable to oppose them. Maria lost her position as governess.[14] She found another with the Fuchs family in Sopot, on the Baltic Sea coast, where she spent the next year, all the while financially assisting her sister.
At the beginning of 1890, Bronisława, a few months after she married Kazimierz Dłuski, invited Maria to join them in Paris. Maria declined because she could not afford the university tuition and was still counting on marrying Kazimierz Żorawski. She returned home to her father in Warsaw, where she remained till the fall of 1891. She tutored, studied at the clandestine Floating University,[15] and began her practical scientific training (1890–91) in a laboratory at the Museum of Industry and Agriculture at Krakowskie Przedmieście 66, near Warsaw's Old Town.[16] The laboratory was run by her cousin Józef Boguski, who had been assistant in Saint Petersburg to the great Russian chemist Dmitri Mendeleev.[17]
In October 1891, at her sister's insistence and after receiving a letter from Żorawski, in which he definitively broke his relationship with her, she decided to go to France after all.[10]
Maria's loss of the relationship with Żorawski was tragic for both. He soon earned a doctorate and pursued an academic career as a mathematician, becoming a professor and rector of Kraków University and president of the Warsaw Society of Learning. Still, as an old man and a mathematics professor at the Warsaw Polytechnic, he would sit contemplatively before the statue of Maria Skłodowska which had been erected in 1935 before the Radium Institute that she had founded in 1932.[18]
In Paris, Maria briefly found shelter with her sister and brother-in-law before renting a primitive garret[19] and proceeding with her studies of physics, chemistry, and mathematics at the Sorbonne (the University of Paris).

Pierre Curie

Skłodowska studied during the day and tutored evenings, barely earning her keep. In 1893, she was awarded a degree in physics and began work in an industrial laboratory at Lippman's. Meanwhile she continued studying at the Sorbonne, and in 1894, earned a degree in mathematics.
That same year, Pierre Curie entered her life. He was an instructor at the School of Physics and Chemistry, the École supérieure de physique et de chimie industrielles de la ville de Paris (ESPCI). Skłodowska had begun her scientific career in Paris with an investigation of the magnetic properties of various steels; it was their mutual interest in magnetism that drew Skłodowska and Curie together.[20]
Her departure for the summer to Warsaw only enhanced their mutual feelings for each other. She still was laboring under the illusion that she would be able to return to Poland and work in her chosen field of study. When she was denied a place at Kraków University merely because she was a woman, she returned to Paris.[21] Almost a year later, in July 1895, she and Pierre Curie married, and thereafter the two physicists hardly ever left their laboratory. They shared two hobbies, long bicycle trips and journeys abroad, which brought them even closer. Maria had found a new love, a partner, and a scientific collaborator upon whom she could depend.[21]

New elements

In 1896 Henri Becquerel discovered that uranium salts emitted rays that resembled X-rays in their penetrating power. He demonstrated that this radiation, unlike phosphorescence, did not depend on an external source of energy, but seemed to arise spontaneously from uranium itself. Becquerel had, in fact, discovered radioactivity.
Curie decided to look into uranium rays as a possible field of research for a thesis. She used a clever technique to investigate samples. Fifteen years earlier, her husband and his brother had invented the electrometer, a sensitive device for measuring electrical charge. Using the Curie electrometer, she discovered that uranium rays caused the air around a sample to conduct electricity.[22] Using this technique, her first result was the finding that the activity of the uranium compounds depended only on the quantity of uranium present. She had shown that the radiation was not the outcome of some interaction of molecules, but must come from the atom itself. In scientific terms, this was the most important single piece of work that she conducted.[23]
Curie's systematic studies had included two uranium minerals, pitchblende and torbernite (also known as chalcolite). Her electrometer showed that pitchblende was four times as active as uranium itself, and chalcolite twice as active. She concluded that, if her earlier results relating the quantity of uranium to its activity were correct, then these two minerals must contain small quantities of some other substance that was far more active than uranium itself.[24]
The idea [writes Reid] was her own; no one helped her formulate it, and although she took it to her husband for his opinion she clearly established her ownership of it. She later recorded the fact twice in her biography of her husband to ensure there was no chance whatever of any ambiguity. It [is] likely that already at this early stage of her career [she] realized that... many scientists would find it difficult to believe that a woman could be capable of the original work in which she was involved.[25]
In her systematic search for other substances beside uranium salts that emitted radiation, Curie had found that the element thorium likewise, was radioactive.
Pierre and Marie Curie in the laboratory
Pierre and Marie Curie in the laboratory
She was acutely aware of the importance of promptly publishing her discoveries and thus establishing her priority. Had not Becquerel, two years earlier, presented his discovery to the Académie des Sciences the day after he made it, credit for the discovery of radioactivity, and even a Nobel Prize, would have gone to Silvanus Thompson instead. Curie chose the same rapid means of publication. Her paper, giving a brief and simple account of her work, was presented for her to the Académie on 12 April 1898 by her former professor, Gabriel Lippmann.[26]
Even so, just as Thompson had been beaten by Becquerel, so Curie was beaten in the race to tell of her discovery that thorium gives off rays in the same way as uranium. Two months earlier, Gerhard Schmidt had published his own finding in Berlin.[27]
At that time, however, no one else in the world of physics had noticed what Curie recorded in a sentence of her paper, describing how much greater were the activities of pitchblende and chalcolite than uranium itself: "The fact is very remarkable, and leads to the belief that these minerals may contain an element which is much more active than uranium." She later would recall how she felt "a passionate desire to verify this hypothesis as rapidly as possible."[28]
Pierre Curie was sure that what she had discovered was not a spurious effect. He was so intrigued that he decided to drop his work on crystals temporarily and to join her. On 14 April 1898, they optimistically weighed out a 100-gram sample of pitchblende and ground it with a pestle and mortar. They did not realize at the time that what they were searching for was present in such minute quantities that they eventually would have to process tons of the ore.[28]
As they were unaware of the deleterious effects of radiation exposure attendant on their chronic unprotected work with radioactive substances, Curie and her husband had no idea what price they would pay for the effect of their research upon their health.[21]
Pierre, Irène, Marie Curie
In July 1898, Curie and her husband published a paper together, announcing the existence of an element which they named "polonium", in honor of her native Poland, which would for another twenty years remain partitioned among three empires. On 26 December 1898, the Curies announced the existence of a second element, which they named "radium" for its intense radioactivity — a word that they coined.
Pitchblende is a complex mineral. The chemical separation of its constituents was an arduous task. The discovery of polonium had been relatively easy; chemically it resembles the element bismuth, and polonium was the only bismuth-like substance in the ore. Radium, however, was more elusive. It is closely related, chemically, to barium, and pitchblende contains both elements. By 1898, the Curies had obtained traces of radium, but appreciable quantities, uncontaminated with barium, still were beyond reach.[29]
The Curies undertook the arduous task of separating out radium salt by differential crystallization. From a ton of pitchblende, one-tenth of a gram of radium chloride was separated in 1902. By 1910, Curie, working on without her husband, who had been killed accidentally by a horse drawn vehicle[30] in 1906, had isolated the pure radium metal.[31]
In an unusual decision, Marie Curie intentionally refrained from patenting the radium-isolation process, so that the scientific community could do research unhindered.[32]
In 1903, under the supervision of Henri Becquerel,[33] Marie was awarded her DSc from the University of Paris.

Nobel Prizes

1903
1911, awarded second Nobel Prize
In 1903 the Royal Swedish Academy of Sciences awarded Pierre Curie, Marie Curie and Henri Becquerel the Nobel Prize in Physics, "in recognition of the extraordinary services they have rendered by their joint researches on the radiation phenomena discovered by Professor Henri Becquerel."
Curie and her husband were unable to go to Stockholm to receive the prize in person, but they shared its financial proceeds with needy acquaintances, including students.[21]
On receiving the Nobel Prize, Marie and Pierre Curie suddenly became very famous. The Sorbonne gave Pierre a professorship and permitted him to establish his own laboratory, in which Curie became the director of research.
In 1897 and 1904, respectively, Curie gave birth to their daughters, Irène and Ève Curie. She later hired Polish governesses to teach her daughters her native language, and sent or took them on visits to Poland.[34]
Curie was the first woman to be awarded a Nobel Prize. Eight years later, in 1911, she received the Nobel Prize in Chemistry, "in recognition of her services to the advancement of chemistry by the discovery of the elements radium and polonium, by the isolation of radium and the study of the nature and compounds of this remarkable element."
1911 Nobel Prize
A month after accepting her 1911 Nobel Prize, she was hospitalized with depression and a kidney ailment.
Curie was the first person to win or share two Nobel Prizes. She is one of only two people who have been awarded a Nobel Prize in two different fields, the other person being Linus Pauling (for chemistry and for peace). Nevertheless, in 1911 the French Academy of Sciences did not elect her to be a member by two votes. Elected instead was Édouard Branly, an inventor who had helped Guglielmo Marconi develop the wireless telegraph.[35] It would be a doctoral student of Curie, Marguerite Perey, who would become the first woman elected to membership in the Academy – over half a century later, in 1962.

Pierre's death

On 19 April 1906 Pierre was killed in a street accident. Walking across the Rue Dauphine in heavy rain, he was struck by a horse-drawn vehicle and fell under its wheels; his skull was fractured.[30] While it has been speculated that previously he may have been weakened by prolonged radiation exposure, there are no indications that this contributed to the accident.
Curie was devastated by the death of her husband. She noted that, as of that moment she suddenly had become "an incurably and wretchedly lonely person". On 13 May 1906, the Sorbonne physics department decided to retain the chair that had been created for Pierre Curie and they entrusted it to Marie Curie together with full authority over the laboratory. This allowed her to emerge from Pierre's shadow. She became the first woman to become a professor at the Sorbonne, and in her exhausting work regime she sought a meaning for her life.
At First Solvay Conference (1911), Curie (seated, 2nd from right) confers with Henri Poincaré. Standing, 4th from right, is Rutherford; 2nd from right, Einstein; far right, Paul Langevin
Recognition for her work grew to new heights, and in 1911 the Royal Swedish Academy of Sciences awarded her a second Nobel Prize, this time for Chemistry. A delegation of celebrated Polish men of learning, headed by world-famous novelist Henryk Sienkiewicz, encouraged her to return to Poland and continue her research in her native country.[21]
In 1911 it was revealed that in 1910–11 Curie had conducted an affair of about a year's duration with physicist Paul Langevin, a former student of Pierre Curie's.[36] He was a married man who was estranged from his wife. This resulted in a press scandal that was exploited by her academic opponents. Despite her fame as a scientist working for France, the public's attitude tended toward xenophobia—the same that had led to the Dreyfus affair–which also fueled false speculation that Curie was Jewish. She was five years older than Langevin and was portrayed in the tabloids as a home-wrecker.[37] Later, Curie's granddaughter, Hélène Joliot, married Langevin's grandson, Michel Langevin.
Curie's second Nobel Prize, in 1911, enabled her to talk the French government into funding the building of a private Radium Institute (Institut du radium, now the Institut Curie), which was built in 1914 and at which research was conducted in chemistry, physics, and medicine. The Institute became a crucible of Nobel Prize winners, producing four more, including her daughter Irène Joliot-Curie and her son-in-law, Frédéric Joliot-Curie.

World War I

Curie in a World War I mobile x-ray vehicle
During World War I, Marie saw a need for field radiological centers near the front lines to assist battlefield surgeons. After a quick study of radiology, anatomy and automotive mechanics she procured x-ray equipment, vehicles, auxiliary generators and developed mobile radiography units, which came to be popularly known as petites Curies ("Little Curies"). She directed the installation of twenty mobile radiological vehicles and another 200 radiological units at field hospitals in the first year of the war. It is estimated that over one million wounded soldiers were treated with her x-ray units.[11]
Afterwards, Marie produced hollow needles containing 'radium emanation', a colorless, radioactive gas given off by radium, later identified as radon to be used for sterilizing infected tissue. Curie provided the radium, from her own personal one gram supply.
Also, promptly after the war started, she attempted to donate her gold Nobel Prize medals to the war effort but the official refused to accept them. She was also active member in committees of Polish Polonia in France dedicated to Polish cause.[38]

Post-war years

In 1921 Curie was welcomed triumphantly when she toured the United States to raise funds for research on radium. Mrs. William Brown Meloney, after interviewing Curie, raised money to buy 1 gram of radium and publicized the trip.[39] President Warren Harding received her at the White House.[40]
Her second American tour, in 1929, succeeded in equipping the Warsaw Radium Institute, founded in 1925 with her sister Bronisława as director.[41]
These distractions from her scientific labors and the attendant publicity caused her much discomfort but provided resources needed for her work.
In her later years Curie headed the Curie Pavilion, a radioactivity laboratory created for her by the Pasteur Institute and the University of Paris. It was one of four major radioactivity-research laboratories, the others being the Cavendish Laboratory, with Ernest Rutherford; the Institute for Radium Research, Vienna, with Stefan Meyer; and the Kaiser Wilhelm Institute for Chemistry, with Otto Hahn and Lise Meitner. [42]
In 1933, when Russian physicists George Gamow and his wife — who had together been trying for two years to defect from the Soviet Union — attended the 7th Solvay Conference on physics, in Brussels, Marie Curie and other physicists helped them extend their stay, and Gamow obtained temporary work at the Curie Institute.

Death

1935 statue, facing the Radium Institute, Warsaw
Curie visited Poland for the last time in the spring of 1934.[21] Only a few months later, on 4 July 1934, Curie died at the Sancellemoz Sanatorium in Passy, in Haute-Savoie, eastern France, from aplastic anemia contracted from her long-term exposure to radiation.[8] The damaging effects of ionizing radiation were not then known, and much of her work had been carried out in a shed, without the safety measures that would later be developed. She had carried test tubes containing radioactive isotopes in her pocket[citation needed] and stored them in her desk drawer, remarking on the faint light that the substances gave off in the dark.[43] Marie was also exposed to x-rays from unshielded equipment while serving as a radiologist in field hospitals during the war.
She was interred at the cemetery in Sceaux, alongside her husband Pierre. Sixty years later, in 1995, in honor of their achievements, the remains of both were transferred to the Panthéon, Paris. She became the first – and so far the only – woman to be honored with interment in the Panthéon on her own merits.
Her laboratory is preserved at the Musée Curie.
Because of their levels of radioactivity, her papers from the 1890s are considered too dangerous to handle. Even her cookbook is highly radioactive. They are kept in lead-lined boxes, and those who wish to consult them must wear protective clothing.[44]

Legacy

The physical and societal aspects of the work of the Curies contributed substantially to shaping the world of the twentieth and twenty-first centuries. Cornell University professor L. Pearce Williams observes:
The result of the Curies' work was epoch-making. Radium's radioactivity was so great that it could not be ignored. It seemed to contradict the principle of the conservation of energy and therefore forced a reconsideration of the foundations of physics. On the experimental level the discovery of radium provided men like Ernest Rutherford with sources of radioactivity with which they could probe the structure of the atom. As a result of Rutherford's experiments with alpha radiation, the nuclear atom was first postulated. In medicine, the radioactivity of radium appeared to offer a means by which cancer could be successfully attacked.[31]
(See physics, conservation of energy, Ernest Rutherford, atom, alpha decay, atomic nucleus.)
If the work of Marie Curie helped overturn established ideas in physics and chemistry, it has had an equally profound effect in the societal sphere. To attain her scientific achievements, she had to overcome barriers that were placed in her way because she was a woman, in both her native and her adoptive country. This aspect of her life and career is highlighted in Françoise Giroud's Marie Curie: A Life, which emphasizes Curie's role as a feminist precursor. She was ahead of her time, emancipated, independent, and in addition uncorrupted. Albert Einstein is reported to have remarked that she was probably the only person who was not corrupted by the fame that she had won.

Tuesday, June 19, 2012

Discover endangered animals, native plants in preserves tucked in South Florida neighborhoods

From Sun Sentinel: Discover endangered animals, native plants in preserves tucked in South Florida neighborhoods

Get a glimpse into Florida's past — before the people, subdivisions, condo canyons and air-conditioned shopping malls wiped them out.

Just off bustling Oakland Park Boulevard, explore an ancient beach dune where endangered gopher tortoises burrow and roam the white sugar sand. Pluck delicious wild huckleberries off a bush as native Zebra Longwings flutter about.

These and other treasures are quietly waiting to be discovered inside preserves and forests hiding in neighborhoods in Oakland Park, Boca Raton, Coral Springs and other South Florida cities.

Lakeside Sand Pine Preserve in Oakland Park has 5.4 acres of white, sugar sand with flowering native plants and burrowing tortoises and other wildlife. The park is west of Interstate 95, just a block off the busy road.

"Most of these [lands] were destroyed through development," say Charles Livio, horticulturist for the City of Oakland Park.

"Forty thousand years ago, this was a coastal sand dune," he says, pointing to the snowy sand carpeting the rare scrubland. "What's unique about this preserve is its soil. It's acidic. Most soil in South Florida is alkaline. Acidic soil supports special native plants, like huckleberry, wild muscadine grape, staggerbush and fetterbush. This sand pine scrub is rare because these were the first lands developed in Florida during the building boom."

Native trees and shrubs include South Florida Slash and Sand Pines, Silver and Green Saw Palmetto, Sand Live Oaks and Myrtle Oaks. The preserve is bordered by two fresh-water lakes, surrounded by businesses and homes.

Back on the trail, Livio points out black and yellow Zebra Longwings, which are the state butterfly, and White Peacock butterflies feeding on the nectar of a beautyberry flower.

Farther down the trail is a rare colony of Reindeer moss. "Those are tiny, primitive lichen that were used by Native Americas to thicken soups and stews," Livio says. "They absorb pollutants from the air like a sponge. They are uncommon to South Florida."

The park, which the city acquired in 2001 through a grant from the Florida Communities Trust overseen by the Florida Department of Environmental Protection, is teeming with native fauna favored by burrowing gopher tortoises.

In December, the city adopted and released four of the endangered reptiles, the first in the state to do so under the Waif Tortoise Permit Adoption Program, according to city documents.

"The tortoises are our VIPs," Livio says. "They feast on gopher apple and flowering prickly pear cactus, which grows here in abundance. They only live in this type of habitat, which is hard to find."

Blazing Star

Until you arrive at the Blazing Star Preserve in Boca Raton, that is. Many of the same native plants and a colony of 25 or so tortoises can be found roaming free there, too. The preserve is one of seven in the city.

"Blazing Star is special because you can see how Florida was in the past. It's a little oasis in the middle of the city that's untouched by time," says Dawn Sinka, Boca Raton's horticulturist and arborist.

She says the 24-acre preserve was most likely a part of the same ancient sand dune found in Oakland Park. The land was acquired in 1997 through the Florida Communities Trust, she said.

"If you were standing at Blazing Star tens of thousands of years ago, you would have been looking at the ocean." Today, the view is I-95.

The preserve was named for the purple flowering plant that grows all over the open sunny areas in the park's sugar sand. They flower from September to October, she said.

Bordered by Sugar Sand Park to the west and noisy I-95 to the east, the preserve has 2 acres of wetland at its northeast end. The inaccessible 29-acre Cypress Knee Slough is to the south. The two were once connected before Palmetto Park Road separated them.

"It's special because you can see things that you can't see a quarter mile away. If you just open your eyes and look at them, they're just amazing and beautiful and rare. That makes it worth the trip to see it," Sinka says.

"Did you see the tortoise?" asks Nicolo Atria, pointing out the reptile basking just outside its underground nest. "I wonder how old he is."

Atria, who lives nearby, says he comes to the preserve twice a month. "I like the native trees. I visit botanical gardens and this is right in my own backyard."

Sandy Ridge

Head west to Sandy Ridge Sanctuary in Coral Springs and walk through a grove of more than 2,000 South Florida Slash Pines shading native plants and more than 30 gopher tortoises.

"It's [about] 40 acres of environmentally sensitive land right in the middle of the city," says Mark Westfall, Coral Springs' environmental coordinator.

The park, purchased by the city in 1996 through a bond program, is only open for guided tours on the first and third Saturdays of the month or by appointment. As you enter through locked gates, sweeping stands of native bracken ferns flank the paved trail. Blooming cardinal bromeliads blaze red and yellow high up in the Slash Pines.

"The lake at Sandy Ridge is one of the most beautiful places in the city. It's filled with fragrant water lily and 2,000 fish," Westfall said. Across the path, there's a stunning bald cypress standing sentry in the wetland. A wax myrtle grows nearby.

"The waxy cuticle of this fragrant plant was used by pioneers to make scented candles," Westfall explains as he cracks open a leaf. "It's special. It's intact habitat that's never been developed."

dchristensen@

tribune.com

Lakeside Sand Pine Preserve

2820 NW 27th Ave., Oakland Park

954-630-4500; OaklandParkFl.org

Hours: 8 a.m.-3 p.m. Monday-Saturday; closed Sunday and holidays

Blazing Star Preserve

1751 W. Camino Real Road, Boca Raton

561-393-7810, CI.Boca-Raton.fl.us/rec/parks

A Girl Goes on a Series of Dates to Scientifically Prove Her Fiance's Sincerity in "Losing Control"

Talk about Dumbing Down America:

From Philadelphia Weekly: A Girl Goes on a Series of Dates to Scientifically Prove Her Fiance's Sincerity in "Losing Control"

Grade: D+

As the irritating stereotype goes, most female comedy protagonists tend to be great at their jobs yet terrible at their lives. Give the indie romance Losing Control credit for originality: Its hero, Samantha—a biology grad student played by an Amy Adams-y Miranda Kent—is bad at both her job and her life. Brainy and ambitious enough to study at Harvard, Samantha’s pet project is a “Y-Kill” protein, which will help eliminate Y-chromosomes bearing genetic illnesses.

Never mind the ethical quandaries about a protein that can dictate gender—writer/director Valerie Weiss never does, despite being a biology grad herself—because Samantha’s never been able to make it work more than once. And never mind her elite credentials: Our lead is a clumsy airhead with a permanent open-mouthed expression of exasperation who greets the proposal of her longtime Asian Studies boyfriend (Reid Scott, Veep) with a bizarre scientific line that no scientist has ever uttered: Because she has little to compare their romance to, his love for her isn’t verifiable.

To scientifically (or “scientifically”) prove his sincerity—as though his wanting to go next level after what looks like years of romantic suffering weren’t evidence enough—she decides to go on a series of dates with movie stereotypes not even inventive enough to be lame: a douchebag lawyer who calls everyone “douchebag,” a polyamorous freak, one of those wacky performance artists. It’s like North for people who think art-house movies are automatically brainier than mainstream fare, or even those who’d assume a movie about a scientist by a scientist wouldn’t be insultingly stupid.

Losing Control never takes itself seriously, which is supposedly its defense against the left-field conspiracy plot climax, or even its curious racial humor. Having a Jewish mother who insists Samantha don a hat bearing a glowing Star of David gets a pass, if not comedically. Less so the Asian jokes, including a Chinese student whom no one can understand. Foreigners, huh! Indies like this give not only “festival favorites” a bad name, but also, as per its director, dramatic career shifts.

Thursday, June 14, 2012

Mayan End of World Hype is Causing Real Fear Among Children

From Fox Nes Latino: Mayan End of World Hype is Causing Real Fear Among Children

Scientist David Morrison has for many years made it his personal quest to debunk doomsday rumors. Lately, it’s the Mayan calendar that’s on his radar.

On his “Ask an Astrobiologist” web page, Morrison, a doctor of astrobiology and astrology from Harvard University and a senior scientist at the NASA Astrobiology Institute at the Ames Research Center, receives at least five emails a day from people (mostly kids) who are terrified the world is coming to an end.

Even worse, Morrison says, he recently met a middle-school teacher from Stockton, Calif., who told him that two parents had come to her and said they were planning to kill themselves and their children on or before December, because they believed the end was near.

“I’m afraid of what people will do on that day (12/21/2012). They may do crazy things. There is no scientific evidence backing up what these doomsday people believe,” Morrison says. And he fervently states, “If something horrible was going to happen, I would tell people.”

Humans are in constant fear of the sky falling—probably from the beginning of time when they couldn’t explain lightning, sunset, disease, or death. The latest doomsday fears are being fomented by the believers in the Mayan calendar—using it to predict the worlds end on 12/21/2011 at 11:11 GMT—suspecting a demise by a rogue planet or star colliding with Earth, an earthquake of some magnitude, a solar blast from the Sun causing catastrophic fires, alignment of planets, or axis/gravity shifts.

The Mayan doomsday prediction has been widely debunked by scientists, and most people laugh at it or are mildly intrigued by it. Mayan sites have even launched tourism campaigns around it. But all of it is causing a very high and serious level of fear, particularly in children.

“Given what’s out there on TV or online, depending on their environments and their ages, children are easily susceptible to irrational beliefs. If you share this doomsday information with them, you’re going to scare them. And if they see the end of the world as a villain, they could hurt themselves in order to ‘outsmart the villain’,” says Donna Kashani, M.D. Board certified adult, child and adolescent psychiatrist and faculty member at UCSD School of Medicine, Department of Psychiatry.

In May, a 16-year-old UK girl by the name of Isabel Taylor hanged herself after she’d done extensive research on the Internet about Doomsday predictions, and convinced herself the world would end in 2012. According to her friend, Taylor had become obsessed with the world ending—constantly making comments to friends and family about a nuclear disaster caused by sunspots resulting in a reaction so big as to end the world.

According to the 200 inhabitants of a small town in France called Pic de Bugarach, 20,000 people have descended on their hamlet to wait out and possibly save themselves from the impending doom. At 1,230 meters (or 4,035 feet), it’s the highest peak in the Corbieres mountain range, and many believe that like Mount Sinai, it possesses mystical energies and magnetic waves. Many of the pilgrims or “New Agers” believe that on December 21st, aliens will come to the mountain and rescue them, taking them to the place of the “new age or era”. The French government is concerned that if nothing happens on the day, there could be mass suicides.

John Kenhe, web developer of the site December 21, 2012, a doomsday clearinghouse of sorts, says the site he created in 2005 wasn’t meant to scare people but be a place for all opinions. Although Kenhe is an admitted “prepper” —someone who is prepared for a disaster with food, water, and gas masks located in a bunker under his house— he doesn’t believe the world will end on 12/21.

“Whether we can witness it or not, something will happen on that day. No one can know for sure what will happen. I tell my kids there will be a Christmas this year. I feel positive that we’re headed for a more enlightened way of living on the planet,” Kehne says.

“When children are afraid or anxious by this doomsday stuff, it’s because they lack adult figures in their lives who aren’t reassuring them they’re safe,” said Dr. Saurabh Gupta, a researcher in the department of Psychiatry at UCSD. “Emotional safety is created by adults for children, kids can’t be held responsible for making themselves feel worry free—it’s not their job.”

Tuesday, June 12, 2012

India: Thane girl tops ICSE with 98.8%

From the Mumbai Mirror (Mumbai is the capital of the Indian state of Maharashtra.): Thane girl tops ICSE with 98.8%

A discussion with Shalaka Kulkarni about her exam preparations would leave anyone impressed with her meticulous planning.

The 15-year-old who topped this year’s Indian Certificate of Secondary Education (ICSE) exams, scoring 98.8 per cent says that while she never planned to become a topper, she had set herself a target of scoring 98 per cent.

“I analysed myself and set this target. But well, the result has made my family happy,” says Shalaka, a student of Thane’s Shreemathi Sulochanadevi Singhania School. Shalaka’s mother Dr Aparna Kulkarni said, “It’s sheer happiness for us. I never expected her to top the country, we thought she may top the school or the western region. I am grateful to God and happy that she achieved what she wanted.”

Speaking about her study schedule Shalaka, a trained Kathak dancer and the captain of her school, says, “I was concerned about how well I studied rather than how much time I studied for. Although I got less time as compared to other students, I studied anywhere 2-hours on an average every day and more during exam time.”

Shalaka who didn’t attend any tuition classes said, “My school principal and teachers trusted me a lot and the teachers were ready to help me with my classes if I missed any due to my involvement in extra curricular activities.” In Std VI she received a silver medal in the Homi Bhaba Young Scientist search and a gold medal in Std IX. Besides Shalaka, a girl from Jharkhand, Madhavi Singh, scored 98.8 per cent.

The board also announced the Std XII results on Saturday. In Maharashtra 10,754 students appeared for the ICSE exams and 1,230 for the ISC exams. However, the pass percentage this year for both ICSE and ISC was lower than last year’s (see box). While the ICSE score fell by 0.03 % from last year’s, the ISC percentage fell by 0.016 %. Keeping up with the tradition, girls did better than boys.

Speaking to Mumbai Mirror Sister Rani Anthony, principal of Peddar Road’s Villa Theresa School - one of the 129 schools that offer ICSE in the state - said that out of the 104 students from her school who appeared for the exam, 42 scored over 90 per cent. “I am very happy with my school’s performance. One of our student scored 100 per cent in geography which is a great achievement.” There are 30 schools in the state that offer ISC.

The additional secretary of the Council for the Indian School Certificate Examinations (CISCE) Gerry Arathoon said, “We are very happy with the overall performance of all our students. The overall pass percentage is 98.62 for ICSE and and 97.25 for ISC. Compared to last year, the figures are up by 0.01% per cent.”

CBSE and state board results are expected to be announced within the next fortnight.

Friday, June 8, 2012

In daddy’s scientific footsteps: With her 5th degree, Butambala girl lives American dream

From the Observer: In daddy’s scientific footsteps: With her 5th degree, Butambala girl lives American dream

It is every parent’s dream to see their children grow up and graduate from university.

But often do you meet a five-degree holder, topped off with a Doctorate degree or PhD?

Well, recently the Ugandan community in Dallas Fort Worth not only embraced one, they also welcomed their community’s first and youngest female PhD holder in the names of Dr Sala Nanyanzi Senkayi. It has been a long time coming for the young lady, the daughter of Dr Abu Senkayi (PhD) and Sunajeh Senkayi, having began her humble journey at Texas A&M University, with a Bachelor of Science (B.Sc) degree.

She would later pick up two other B.Sc degrees and a Master of Science degree) from the University of Texas at Arlington (UTA). And then came her PhD in environmental science from the same University of Texas at Arlington, for which she wrote a dissertation on “Proximity to Airport and Cancer Incidences in Texas”.

Many people will be familiar with the adage that it takes a village to raise a child; that is what many friends and well wishers of the Senkayi family said during Sala’s graduation party. The proud parents could be seen beaming with excitement as speaker after speaker, spoke about their daughter’s achievement.

Emcee Frank Sentamu, added excitement to the evening when he suggested that the two doctors should change their names to Dr Senkayi Senior and Dr Senkayi Junior as a way of separating father and daughter.

The journey that first inspired the young Sala could be traced back to her childhood. According to her father, on the day he got his PhD, Sala ran to the stage, grabbed her Dad’s hat and put it on her own head, as if to suggest that one day she would wear her own. Several years passed but Dr Abu Senkayi did not imagine ever having the pleasure of participating in the hooding process of his only daughter.

The hooding process is normally reserved for the graduate’s major professor, but in one of those rare occasions when a parent of the student is a Doctorate degree holder, the pleasure and opportunity of carrying out this exercise is often passed on to the parent, which in this case was Dr Abu Senkayi an environmental scientist himself.

Sala owes her success to the inspiration and support of her parents, and brother Ali Senkayi, an electrical engineer. She is also quick to mention the collective effort of many other community friends and relatives who encouraged her along her academic journey.

Dr Abu Senkayi, an official Buganda Kingdom representative in North America, also mentioned that Sala had been involved in planning for Buganda cultural activities in Dallas. In 2001, young as she was, Sala played a prominent role during Kabaka Ronald Mutebi’s, visit to Dallas. The same was the case when the Nnabagereka of Buganda, Sylvia Nnaginda, visited in 2005.

The Senkayi family, originally from Kibibi in Butambala, left Uganda in the 1970s and settled in the United States. They visit Uganda regularly and were here only last December, to participate in the Ugandan Diaspora conference the Serena Hotel. Dr Sala is also an active community organizer who spends time going to schools and colleges to talk about Environmental protection.

Besides her commitment to the community, Sala maintains a full time job in the same office block and department with her father, at the Federal Environmental Protection Agency (EPA). Her EPA mentor proudly noted, during the evening graduation dinner, that Sala is “a very dedicated girl, who takes her job very seriously and devotes a lot of time into everything she does.”

Before Sala joined her father as an EPA employee, the father remembers bringing her to the office on special days when employees are allowed to bring their children to the office. One could say that all this gave the little girl some early inspiration to follow in her dad’s footsteps.

But when asked why she chose environmental science Sala said: “I’m not trying to follow my dad’s footsteps per se, because I like Biology and my dad is a soil scientist. But I also like my dad because he is a cool guy!”

Sala says she enjoys her work environmental protection, and her fellowship in the Ugandan community. “Getting a degree is just part of the story” she says. “Making friends, helping each other, as Ugandan community members to advance each other, is what will help us succeed here in the Diaspora.”

With her five degrees, the single Dr Sala intends to keep her job at EPA, although she could go into academia; and she still cherishes working with children on environment-related programmes.

“I can now say that I’m free at last,” she says. “I have all the time I need to live and enjoy my life.”

Thursday, June 7, 2012

University Women on educational mission: Scholarships to help keep girls pursuing science

From Contra Costa Times: University Women on educational mission: Scholarships to help keep girls pursuing science

MORAGA -- Like modern day warriors, the Orinda-Moraga-Lafayette branch of the American Association of University Women is using its collective intellectual brawn to smash barriers and myth-bust its way to extinction.

With a mission to erase the obstacles preventing young girls from entering science, technology, engineering and math fields, they plan to make females in science an everyday, no-news occurrence -- effectively putting their organization out of business.

"We want girls to stick with it," said Sandy Fox-Sohner, chair of the local AAUW's 2012 Tech Trek committee, which has sent 47 middle school girls to a science camp at Stanford University during the past 15 years.

Pointing to studies that show boys and girls have equal science interest in elementary school, but seriously declining interest from girls by eight grade, Fox-Sohner said the weeklong experience comes at a crucial time in a young girl's academic career.

The Lamorinda AAUW reviewed applications from 40 seventh-grade students nominated by their math and science teachers. Nominees were asked to write essays and complete in-person interviews. Six Tech Trek awards were granted, and at an April 22 ceremony at the Holy Trinity Serbian Orthodox Cultural Center in Moraga, the six winners received their awards and shared their essays.

Orinda Intermediate School's Anna Fields said she was not yet an expert, but was more like a cell, with an innate capacity for growing and learning.

Caroline Sernett, also from OIS, claimed science to be "perfect" because it offered an opportunity for taking advantage of her natural curiosity to "discover and delve deeper."

Two students from Joaquin Moraga Intermediate School had big dreams. Audrey Concepcion spoke of becoming an architect, and Maya Ramesh said, "Most girls have dreams of being a singer or President of the United States, but I have much bigger dreams," before listing Nobel Laureate and famous scientist as her own.

Stanley Intermediate's Morgan Rogers got the crowd laughing with an opening comment that her family's large numbers had made math a big part of her life from an early age and Cara Wolfe's enthusiasm for computer animation was infectious.

Demonstrating a remarkably similar exuberance and youthful energy, guest speaker Dr. Margaret Race, an ecologist who works with NASA through the SETI Institute, began her keynote presentation with a question.

"How many people know a scientist?" she prompted.

Without waiting for an answer, she said scientists are everywhere and all connected by one thing: curiosity.

Claiming to be "a late bloomer," Race spoke of spending four years in hip boots while numbering snails in San Francisco Bay ("Being a scientist is not always romantic," she joked), and of her current work studying the environmental impact and science policy issues relating to space exploration.

"For every cell in your body, you have 10 times the number of microbes," she said. "If we are walking bags of microbes, can we even go to space? If you have all those astronauts on the moon, is that harmful? What would be the environmental impact of bringing back life from another planet?"

Leaving unanswered questions to tantalize minds young and old in the audience, Race suggested today's outside-the-box ideas represent tomorrow's possibilities.

"Focus on yourself: do what you like. It involves lifelong learning, so just start," she advised.

The AAUW also presented scholarships to three area high school students and to Elizabeth Sandoval-Torres, a Fulbright scholarship candidate at Saint Mary's College.

Sandoval-Torres, capturing the afternoon's primary message, announced, "We are the designers of our destiny," before thanking her mother for moving with her from Mexico, where college was not an option, to the United States.

Annie Ye (Campolindo High), Samya Faiq (Acalanes) and Carlyn Wright (Miramonte) presented a triptych of achievement. With athletic and artistic accomplishments, extensive community service and GPAs of above 4.0 in common, the three young women prompted AAUW President Deana Davidson, in closing remarks, to say, "See? We're in good hands."

Wednesday, June 6, 2012

Mad Genius Girl Is Back in Oh No! Not Again!

From Wired: Mad Genius Girl Is Back in Oh No! Not Again!
The little girl whose science project nearly destroyed the world is back, and this time she’s messing with the space-time continuum. You see, she missed a question on her history test about the location of prehistoric cave paintings. Obviously the “simple solution” is to build a time machine, go back in time … and change history so her answer is right.

Of course, things don’t always go as planned. After a couple of failed attempts at getting the Belgian cavemen to paint something, she takes matters into her own hands and paints something herself, but doesn’t notice the cavemen taking a joyride in her time machine. When she finally goes back to her own time … well, let’s just say the present isn’t exactly the way she left it.

This latest picture book from Mac Barnett and Dan Santat has a pretty long title: Oh No! Not Again! (Or How I Built a Time Machine to Save History) (Or at Least My History Grade). Like the first Oh No! book, this one has just a little bit of text (mostly the girl punctuating the story with a little bit of narration and some interjections) and lavish illustrations. The endpapers show the time machine schematics and a Time Transit Services map, and once again the dust jacket is a huge fold-out poster designed to look like a movie poster. (All the more so since it’s from Disney Hyperion Books. Does that mean a movie might be in store? Keep your fingers crossed.)

So, has our wee mad scientist finally learned her lesson? I hope not — I’d love to see some further (mis)adventures!

Oh No! Not Again! will be released on Tuesday next week and is available for preorder now.

Tuesday, June 5, 2012

"Pretty Woman" or "Lara Croft"?

A couple of days ago, some beauty contest winner was asked about how the media portrayed women - did it empower them or did it make them eye candy. (I paraphrase.)

Her answer has generated controversy because she chose as her narrative the movie Pretty Woman, in which Julia Roberts plays a prostitute who falls in love with Richard Gere - and he reciprocates her love.

The woman said that her character was someone who took no nonsense and went after what she wanted. (I paraphrase, I admit I can't remember it exactly and I don't feel like looking up, but that's the gist.)

And I might wonder...why didn't she use Lara Croft as an example insteasd?

And I answered my own question...well, because Lara Croft was unrealistic. Fun, but unrealistic. A woman can not stand toe-to-toe with a guy and duke it out - one blow of his fist to the chin and the woman is going down (unlike in Mr and Mrs Smith in which they were trading body blows. No, I"m sorry, would not work in real life)! Which is why they need to use karate or some other martial art, go for pressure points, etc., and not just try to punch the guy in his "double-prominent" chin - as opposed to the "single-prominent" and thus easily broken chin of the woman.

Could she not have chosen Amelia - from the movie Amelia Earhart who wanted to fly around the world and disappeared fulfilling that dream?

Who else could she have chosen...?

For the life of me I can't think of any positive female role models who played the lead in movies... Catwoman? Mebbe so if Halle Berry hadn't had to wear that ridiculous "here's my belly button and my breasts better not fall out of this very narrow piece of fabric covering them costume.

Let's hope Hollywood will make movies about some real women, as for example:

From WREX 13: Female pilots rock the runway at Airfest

Move over boys, because this one's for the girls. This weekend at the Rockford Airfest, female pilots rocked the runway.

High-octane action, incredible demonstrations, and performing stunts that people only dream about.

That's Major Caroline Jensen's reality, flying right wing for the United States Air Force Thunderbirds.

"When I was 13-years-old, my dad took me to an air show in Eau Claire [Wisconsin], and I got to see the Thunderbirds fly." -says Caroline.

Ever since that day, Jensen knew she would one day be a part of "America's Ambassadors in Blue."

For Captain Gloria Hatcher, operating some seriously heavy equipment is her niche. She pilots U-P-S cargo planes here in Rockford, and K-C 135 refueling tankers.

Hatcher says that despite being outnumbered in the industry as a female, it's hard work and dedication that outweighs gender issues.

"Any female can do this job, and it just takes a little perseverance, and that's whether you're a male or a female." -Hatcher says.

According to Major Jensen, women make up about seven percent of USAF fighter pilots, but it's a number that will continue to grow as long as girls keep the attitude of 'skies the limit.'

"Just realize that there are no limits, for anybody, in whatever they wanna do; being in the military, flying airplanes, or, any other career that they decide." -says Jensen.

Girls interested in taking their careers to "new heights" are encouraged to join programs that advocate women in this industry.

"Now I'm involved with programs like 'Women in Aviation,' so I go out and talk to women who are interested in aviation or think they might be interested, and, encourage them to pursue their career and their love for aviation." says Hatcher.

Whether it's twisting and soaring with the Thunderbirds or operating a Boeing 707, there are plenty of careers in military aviation for women to explore.

Saturday, June 2, 2012

National History Bee

First it was the Geography Bee, then it was the Spelling Bee, now we've got the History Bee.

I was disappointed to see no female contestants here...

The interstices (look it up if you don't know the word) were irritating. They'd show photos of the boys like they do for athletes, and they'd be standing there "styling" and looking as stupid as the photos of athletes doing that do...

Al Roker, the host, would intersperse personal questions along with the real questions. So stupid! Sort of like what Alex Trebek does on Jeopardy, but at least in that show, the questions are confined to the second half of the episode, not interspersed through it while the contestants are trying to concentrate!

As for the questions themselves, I'm about 50-50 so far...

Friday, June 1, 2012

Shattering Stereotypes: Girls Can Change the World With Science

From The Columns: Shattering Stereotypes: Girls Can Change the World With Science

The thoughts of the average four-year-old girl most likely concern playtime or evading the next nap. Dr. Ainissa G. Ramirez, however, was not the average preschooler when she was four. She already had aspirations for her future after college. While some girls cried over lost dolls, Dr. Ramirez dreamed of laboratories and test tubes, "I have wanted to be a scientist since I was four years old," she revealed in an exclusive interview for this article.

Dr. Ramirez visited Chatham Hall on April 20, for Family Weekend, and presented an address to the Chatham Hall community and families titled "How to Change the World (With Science)." In her address, Dr. Ramirez focused on empowering students to both enjoy science and realize the impact that each and every one of them can make. Dr. Ramirez also focused on shattering stereotypes about scientists and the science field: "It's not weirdness; it's just someone who's passionate. [Scientists] are creative problem-solvers just like an artist would be. I expect that your generation will be multi-dimensional, so I think that stereotypes will eventually be phased out."

Dr. Ramirez received her bachelor's degree in materials science and engineering from Brown University and her master's and doctoral degrees in materials science and engineering from Stanford University. She has been a member of the Yale University faculty since 2003 in the department of Mechanical Engineering and Materials Science. The recipient of the Alfred P. Sloan Research Fellowship, a National Science Foundation Career award, and Yale University's Elm-Ivy Award, Dr. Ramirez has spent her life pursuing that which she loves most: science. As one of the highlights of her research, she discovered a universal solder to bond metals to an array of non-metallic surfaces. According to the September 2003 edition of the Yale bulletin and calendar, this discovery is something that "researchers have been seeking for decades."

Science Saturdays, "a special lecture series designed for families that brings the excitement of research and the passion of scientists to school-age children in New Haven, Connecticut," was founded by Dr. Ramirez. She also founded a YouTube series titled Material Marvels. Dr. Ramirez stressed in her address at Chatham Hall the same message she tries to convey in these programs: "I don't think scientists have to be people with doctoral degrees. I think you can simply be a person interested in science and can make an impact. There are many ways for 'do-it-yourself science,' such as games, websites, and more...I think everybody should be involved."

When asked during her interview about the point she most hoped to convey to the students at Chatham Hall, Dr. Ramirez replied, "I want people to find the thing that they're most passionate about. I'm passionate about science. I think it's a great lever to change the world. I hope that the take-home message is that [the audience] finds something that makes them excited and that they use that to make the world a better place." Dr. Ramirez stressed that she did not come to Chatham Hall to force people into the science field, "Instead of pursuing a field, find a question that is important to you...Everything you learn in school should be helping you solve whatever question you want to solve. Find your question- something you are passionate about- and science, history, and your other classes will help you achieve that."

When asked if the scientist she is today is different from the scientist she envisioned as a four-year-old, she replied, "I learned that I liked teaching science and encouraging everyone to do their best in science. So, this leap that I've taken to be more like Bill Nye is not something that I originally envisioned, but I've come to see that it is my calling." Dr. Ramirez noted that she spent time working in laboratories for a time and enjoyed the experience, but her favorite part of her life is now being a professor of science.

Dr. Ramirez described her number-one hope for the young generations of women scientists as a hope that "you won't have to be held back by some of the barriers that the women of my generation faced." As for Dr. Ramirez's hopes for developments in science in the remainder of her lifetime, she noted, "Medicine and biomedical engineering are exciting. Non-intrusive medical robots to make surgery outpatient instead of long hospital stays would be wonderful. Basically, I would most like to see any scientific developments that improve quality of life in the future."

University Women on educational mission: Scholarships to help keep girls pursuing science

From Contra Costa Times: University Women on educational mission: Scholarships to help keep girls pursuing science
MORAGA -- Like modern day warriors, the Orinda-Moraga-Lafayette branch of the American Association of University Women is using its collective intellectual brawn to smash barriers and myth-bust its way to extinction.

With a mission to erase the obstacles preventing young girls from entering science, technology, engineering and math fields, they plan to make females in science an everyday, no-news occurrence -- effectively putting their organization out of business.

"We want girls to stick with it," said Sandy Fox-Sohner, chair of the local AAUW's 2012 Tech Trek committee, which has sent 47 middle school girls to a science camp at Stanford University during the past 15 years.

Pointing to studies that show boys and girls have equal science interest in elementary school, but seriously declining interest from girls by eight grade, Fox-Sohner said the weeklong experience comes at a crucial time in a young girl's academic career.

The Lamorinda AAUW reviewed applications from 40 seventh-grade students nominated by their math and science teachers. Nominees were asked to write essays and complete in-person interviews. Six Tech Trek awards were granted, and at an April 22 ceremony at the Holy Trinity Serbian Orthodox Cultural Center in Moraga, the six winners received their awards and shared their essays.

Orinda Intermediate School's Anna Fields said she was not yet an expert, but was more like a cell, with an innate capacity for growing and learning.

Caroline Sernett, also from OIS, claimed science to be "perfect" because it offered an opportunity for taking advantage of her natural curiosity to "discover and delve deeper."

Two students from Joaquin Moraga Intermediate School had big dreams. Audrey Concepcion spoke of becoming an architect, and Maya Ramesh said, "Most girls have dreams of being a singer or President of the United States, but I have much bigger dreams," before listing Nobel Laureate and famous scientist as her own.

Stanley Intermediate's Morgan Rogers got the crowd laughing with an opening comment that her family's large numbers had made math a big part of her life from an early age and Cara Wolfe's enthusiasm for computer animation was infectious.

Demonstrating a remarkably similar exuberance and youthful energy, guest speaker Dr. Margaret Race, an ecologist who works with NASA through the SETI Institute, began her keynote presentation with a question.

"How many people know a scientist?" she prompted.

Without waiting for an answer, she said scientists are everywhere and all connected by one thing: curiosity.

Claiming to be "a late bloomer," Race spoke of spending four years in hip boots while numbering snails in San Francisco Bay ("Being a scientist is not always romantic," she joked), and of her current work studying the environmental impact and science policy issues relating to space exploration.

"For every cell in your body, you have 10 times the number of microbes," she said. "If we are walking bags of microbes, can we even go to space? If you have all those astronauts on the moon, is that harmful? What would be the environmental impact of bringing back life from another planet?"

Leaving unanswered questions to tantalize minds young and old in the audience, Race suggested today's outside-the-box ideas represent tomorrow's possibilities.

"Focus on yourself: do what you like. It involves lifelong learning, so just start," she advised.

The AAUW also presented scholarships to three area high school students and to Elizabeth Sandoval-Torres, a Fulbright scholarship candidate at Saint Mary's College.

Sandoval-Torres, capturing the afternoon's primary message, announced, "We are the designers of our destiny," before thanking her mother for moving with her from Mexico, where college was not an option, to the United States.

Annie Ye (Campolindo High), Samya Faiq (Acalanes) and Carlyn Wright (Miramonte) presented a triptych of achievement. With athletic and artistic accomplishments, extensive community service and GPAs of above 4.0 in common, the three young women prompted AAUW President Deana Davidson, in closing remarks, to say, "See? We're in good hands."