prashanth venka... 的个人资料prashanth venkataswamy ...照片日志列表更多  |  工具 帮助 |
|
|
3月16日 God's Pharmacy! Amazing!Very Interesting plz read
A friend sent this to me. It's been said that God first separated the
salt water from the fresh, made dry land, planted a garden, made animals and fish... all before making a human. He made and provided what we'd need before we were born. These are best & more powerful when eaten raw. We're such slow learners... God left us great clues as to what foods help what part of our body!
God's Pharmacy! Amazing! A sliced Carrot looks like the human eye. The pupil, iris and radiating lines look just like the human eye... and YES, science now shows carrots greatly enhance blood flow to and function of the eyes. A Tomato has four chambers and is red. The heart has four chambers and is red. All o f the research shows tomatoes are loaded with lycopine and are indeed pure heart and blood food. Grapes hang in a cluster that has the shape of the heart. Each grape looks like a blood cell and all of the research today shows grapes are also profound heart and blood vitalizing food. A Walnut looks like a little brain, a left and right hemisphere, upper cerebrums and lower cerebellums. Even the wrinkles or folds on the nut are just like the neo-cortex. We now know walnuts help develop more than three (3) dozen neuron-transmitters for brain function. Kidney Beans actually heal and help maintain kidney function and yes, they look exactly like the human kidneys. Celery, Bok Choy, Rhubarb and many more look just like bones. These foods specifically target bone strength. Bones are 23% sodium and these foods are 23% sodium. If you don't have enough sodium in your diet, the body pulls it from the bones, thus making them weak. These foods replenish the skeletal needs of the body. Avocadoes, Eggplant and Pears target the health and function of the womb and cervix of the female - they look just like these organs. Today's research shows that when a woman eats one avocado a week, it balances hormones, sheds unwanted birth weight, and prevents cervical cancers. And how profound is this? It takes exactly nine (9) months to grow an avocado from blossom to ripened fruit. There are over 14,000 photolytic chemical constituents of nutrition in each one of these foods (modern science has only studied and named about 141 of them). Figs are full of seeds and hang in twos when they grow. Figs increase the mobility of male sperm and increase the numbers of Sperm as well to overcome male sterility. Sweet Potatoes look like the pancreas and actually balance the glycemic index of diabetics. Olives assist the health and function of the ovaries Oranges, Grapefruits, and other Citrus fruits look just like the
mammary glands of the female and actually assist the health of the breasts and the movement of lymph in and out of the breasts. Onions look like the body's cells. Today's research shows onions help clear waste materials from all of the body cells. They even produce tears which wash the epithelial layers of the eyes. A working companion, Garlic, also helps eliminate waste materials and dangerous free radicals from the body. 3月10日 Rethinking Our Place in the UniverseThe Top Three Reasons:Humans in Spaceby Michael Huang
|
Work in space is becoming as diverse as work on Earth. Some people work for government agencies; some run their own businesses. Some advance the boundaries of knowledge; some push the limits of technology. Although these contributions matter, the most important aspect of humans in space is not their work at all.
To live
On Earth, we know intuitively that life is more important than non-life, that an animal is more important than a rock. However, this applies to the rest of the universe as well. Out of all the colossal and wondrous structures of the universe—galaxies, stars, planets—the most important parts of the universe are the parts that are alive. (The second most important parts are the non-living objects that support life, e.g., the sun.)
This view of the cosmos was elegantly described by the mathematician and philosopher Frank Ramsey (as quoted by Cambridge cosmologist Sir Martin Rees in Our Final Hour): “I don’t feel the least humble before the vastness of the heavens. The stars may be large, but they cannot think or love; and these are qualities which impress me far more than size does… My picture of the world is drawn in perspective, and not like a model drawn to scale. The foreground is occupied by human beings, and the stars are all as small as three penny bits.”
The ultimate aim of human spaceflight is “to extend life to there”, to use the phrase from NASA’s vision statement, to establish habitats beyond Earth. Although life on Earth is diverse and long-standing, it has been restricted to this planet and has failed to go any further. Humans can bring life to the rest of the solar system and beyond. This task is known as “colonization” or “settlement”. The efforts of astronauts and cosmonauts since 1961 are just the beginning of this process.
One could agree with all of the above, but ask why this should be a priority for this generation. Why do it now?
To survive
Humankind made it through the 20th century relatively well, but there were close calls: the Cuban Missile Crisis almost began a total war between nuclear-armed superpowers. The 21st century has presented its own distinct challenges. Nuclear and biological weapon technologies are spreading to many nations and groups. Progress in science and technology, while advancing humankind, will also lead to the development of more destructive weapons and possibly other unintended consequences. In addition to these manmade threats, natural threats such as epidemics and impacts from space will continue to be with us.
The old saying, “Don’t put all your eggs in one basket”, advises that valuable things should be kept in separate places, in case something bad happens at one of the places. This advice is more familiar to investors in the guise of “diversify your portfolio” and “spread your risk”: one should invest in many different areas in case one area declines disastrously.
The same principle applies to the big picture. The most valuable part of the universe is life: not only because life is important, but because life appears to be extremely rare. Life and humankind are presently confined to the Earth (although we have built habitats in Earth orbit and ventured as far as the moon). If we were throughout the solar system, at multiple locations, a disaster at one location would not end everything. If we had the technologies to live in the extreme environments beyond Earth, we would be able to live through the extreme environments of disaster areas and other regions of hardship.
Many agree that it’s time for colonization. “The goal of the human spaceflight program should be to increase our survival prospects by colonizing space,” wrote Princeton astrophysicist J. Richard Gott in Time Travel in Einstein’s Universe. “If we were up there among the planets, if there were self-sufficient human communities on many worlds, our species would be insulated from catastrophe,” wrote Cornell space scientist Carl Sagan in Pale Blue Dot.
Colonization is not guaranteed. Human spaceflight is not guaranteed. They are the results of choices made by individuals in political offices, in government agencies, in boardrooms, in offices and in homes. These choices will influence this generation, but more crucially they will determine the lives of a great many generations to come:
“The theme of this book is that humanity is more at risk than at any earlier phase in its history. The wider cosmos has a potential future that could even be infinite. But will these vast expanses of time be filled with life, or as empty as the Earth’s first sterile seas? The choice may depend on us, this century.”
— Cambridge cosmologist Sir Martin Rees, Our Final Hour
spacereview.com
SPEED OF LIGHT FACTS: is it?
Most perceive the speed of light as being really fast. It's 671 million miles per hour. Fast enough to circle the earth several times per second.
However, once you think about the speed of light within the context of our solar system, it starts to seem unimpressive.
It takes about 1.3 seconds for light or radio waves to reach us from the Moon, which really isn't all that far away (it's only 20 times farther away than Australia is to the United States). This was an issue during the Apollo space program, because due to the round trip time of the radio signals, NASA had to wait about three seconds to hear the answer to every question they asked the astronauts.
When Mars is closest to the Earth, it takes light three minutes to travel between the two planets. If you asked a question to an astronaut on Mars, you'd have to wait at least six minutes for an answer, and Mars is usually a lot farther away than that. At its greatest distance, you'd have to wait 42 minutes, or even longer if the astronaut is watching Gilmore Girls. In the future, there will be no such thing as sending an "instant message" to your friends on the Mars base. There also won't be any day trading or free pizza delivery.
The Voyager 1 spacecraft was launched only 29 years ago. It's currently the farthest away from the Earth of any man-made object. In just a short amount of time, this spacecraft, designed by primitive 1970's-era engineers, many of whom were wearing corduroy bell bottoms, has managed to travel so far away from the Earth that it takes radio signals traveling at the speed of light 14 hours to reach it.
An object that was recently built by people is now far enough away that if you could travel to it at the speed of light, for the in-flight movie you could watch the original director's cut of Water World four times, break for a dinner, and then watch Ishtar before having to put your tray in its upright position.
Light takes four and half years to travel to the nearest star, 100,000 years to travel across the width of the galaxy, and 100 billion years to travel across the observable universe. For any visitors to be able to drop in on us, they'll need a mighty fast ship that can defeat this limit.
The speed of light isn't all that fast.
SPEED OF LIGHT FACTS:
The speed of light in a vacuum is an important physical constant denoted by the letter c for constant or the Latin word celeritas meaning "swiftness". It is the speed of all electromagnetic radiation in a vacuum, not just visible light.
In metric units, c is exactly 299,792,458 meters per second (1,079,252,848.8 km/h). Note that this speed is a definition, not a measurement, since the fundamental SI unit of length, the meter, has been defined since October 21, 1983 in terms of the speed of light: one meter is the distance light travels in a vacuum in 1/299,792,458 of a second. Converted to imperial units, the speed of light is approximately 186,282.397 miles per second, or 670,616,629.384 miles per hour, or almost one foot per nanosecond.
Through any transparent or translucent material medium, like glass or air, it has a lower speed than in a vacuum; the ratio of c to this slower speed is called the refractive index of the medium. Changes of gravity, however, warp the space the light has to travel through, making it appear to curve around massive objects. This gives rise to the phenomenon of gravitational lensing, in which large assemblies of matter can refract light from far away sources, so as to produce multiple images and similar optical distortions.
The Face on "EARTH"
We have all heard of the face on Mars. In July, 1976, Viking Orbiter 1 was acquiring images of the Cydonia region of Mars as part of the search for potential landing sites for Viking Lander 2. On 25 July, 1976, it photographed a region of buttes and mesas along the escarpment that separates heavily cratered highlands to the south from low lying, relatively crater-free, lowland plains to the north. Among the hills was one that, to the Viking investigators scrutinizing the images for likely landing sites, resembled a face.
Now thanks to satellite images of Earth, a face or what appears to be an Indian head has been discovered in southwestern Canada. And upon further inspection, he appears to listening to an Ipod. Placed by aliens?
The land sculpture can be found 180 miles SE of Calgary. About 70 miles north of the U.S. border. Exactly 50° 0'38.20"N 110° 6'48.32"W for those who want to check it out themselves personally, or more easily with Google Earth.
The above picture is at 4500ft making this thing about ¼ mile across.
At 12000 feet the Indian head is still quite visible. The "Ipod earphones" are actually a road that end in a large hole. Looks like it could be a mine. I wonder if the people that drive on this road even realize what it is. Anyone with further information on this is encouraged to contact us here at ufo.whipnet.org
|
|
