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The new Hot & Wild Physics, in total of 24 physics in normal, dance, sex usage that would fit to your need in SL. You can mix to use them if you like the way it gave you the effects. Any new update is free! xx
I have a few videos for samples, link below:
(2)https://streamable.com/04cnp2
(3)https://streamable.com/w3hxkh
(4)https://streamable.com/g1xwxz
Now available inworld:
maps.secondlife.com/secondlife/Under%20The%20Boardwalk/92...
Marketplace:
marketplace.secondlife.com/p/Hot-Wild-Physics-Maitreya-on...
The 26m dish at Hartebeesthoek Radio Astronomy Observatory.
When I took this photograph, the Radio Telescope was observing a MASER (an acronym for: Microwave Amplification by Stimulation Emission of Radiation).
Why do we use Radio Telescopes?
The human eye can only see about one ten trillionth of the Electromagnetic Magnetic Spectrum of light (between 400-700nm, with diminished sensitivity at both ends). Radio Telescopes can detect a much wider range of Electromagnetic Radiation including Radio waves, Microwaves, Terahertz waves, Infrared, Visible light, Ultraviolet, X-rays, and Gamma rays).
A big thank you to Heystek Grobler from HartRAO for showing me around.
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Martin
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My formula sheet for a Physics 286 Class (optics, thermo, waves)
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Full Size available for purchase (print or digital).
Episodes from the History of Electricity.
If you like it, please support it at Ideas! Thank you!
Benjamin Franklin (1750 - Lightning is electrical)
Franklin was a leading author, printer, political theorist, politician (was one of the Founding Fathers of the United States), postmaster, scientist, inventor, civic activist, statesman, and diplomat. As a scientist, he was a major figure in the American Enlightenment and the history of physics for his discoveries and theories regarding electricity. As an inventor, he is known for the lightning rod, bifocals, and the Franklin stove, among other inventions.
In 1750 he published a proposal for an experiment to prove that lightning is electricity by flying a kite in a storm that appeared capable of becoming a lightning storm. On May 10, 1752, Thomas-François Dalibard of France conducted Franklin's experiment using a 40-foot-tall (12 m) iron rod instead of a kite, and he extracted electrical sparks from a cloud. On June 15 Franklin may possibly have conducted his well known kite experiment in Philadelphia, successfully extracting sparks from a cloud.
Franklin's electrical experiments led to his invention of the lightning rod.
Luigi Aloisio Galvani (1781 - "Animal Electricity")
Galvani was an Italian physician, physicist and philosopher who lived in Bologna.
With his experiment he discovered that the body of animals is powered by electrical impulses. Galvani named this newly discovered force “animal electricity,” and thus laid foundations for the modern fields of electrophysiology and neuroscience.
Galvani’s contemporaries - including Benjamin Franklin, whose work helped prove the existence of atmospheric electricity - had made great strides in understanding the nature of electricity and how to produce it. Inspired by Galvani’s discoveries, fellow Italian scientist Alessandro Volta would go on to invent, in 1800, the first electrical battery - the voltaic pile - which consisted of brine-soaked pieces of cardboard or cloth sandwiched between disks of different metals.
Thomas Alva Edison (1882 - First Power Station)
Edison was an American inventor and businessman. He developed many devices that greatly influenced life around the world, including the phonograph, the motion picture camera, and a long-lasting, practical electric light bulb. Dubbed "The Wizard of Menlo Park", he was one of the first inventors to apply the principles of mass production and large-scale teamwork to the process of invention, and because of that, he is often credited with the creation of the first industrial research laboratory.
In 1878, Edison formed the Edison Electric Light Company (today as General Electric) in New York City with several financiers, including J. P. Morgan and the members of the Vanderbilt family. Edison made the first public demonstration of his incandescent light bulb on December 31, 1879, in Menlo Park. It was during this time that he said: "We will make electricity so cheap that only the rich will burn candles."
After devising a commercially viable electric light bulb on October 21, 1879, Edison patented a system for electricity distribution in 1880, which was essential to capitalize on the invention of the electric lamp.
The company established the first investor-owned electric utility in 1882 on Pearl Street Station, New York City. It was on September 4, 1882, that Edison switched on his Pearl Street generating station's electrical power distribution system, which provided 110 volts direct current (DC) to 59 customers in lower Manhattan. Earlier in the year, in January 1882, he had switched on the first steam-generating power station at Holborn Viaduct in London. The DC supply system provided electricity supplies to street lamps and several private dwellings within a short distance of the station.
Edison was a prolific inventor, holding 1,093 US patents in his name. More significant than the number of Edison's patents was the widespread impact of his inventions: electric light and power utilities, sound recording, and motion pictures all established major new industries world-wide. Edison's inventions contributed to mass communication and, in particular, telecommunications. These included a stock ticker, a mechanical vote recorder, a battery for an electric car, electrical power, recorded music and motion pictures.
Nicola Tesla (1891 - Tesla Coil)
Tesla was a Serbian American inventor, electrical engineer, mechanical engineer, and futurist best known for his contributions to the design of the modern alternating current (AC) electricity supply system.
Tesla moved to New York in 1884 and introduced himself to Thomas Edison. Although Tesla and Edison shared a mutual respect for one another, at least at first, Tesla challenged Edison’s claim that current could only flow in one direction (DC, direct current). Tesla claimed that energy was cyclic and could change direction (AC, alternating current), which would increase voltage levels across greater distances than Edison had pioneered. In 1888, Tesla went to work for Westinghouse in order to develop the alternating current system. Westinghouse and Tesla in their design for the first hydroelectric power plant in Niagara Falls.
Around 1891 Tesla invented the Tesla coil, which is an electrical resonant transformer circuit. It is used to produce high-voltage, low-current, high frequency alternating-current electricity. Tesla experimented with a number of different configurations consisting of two, or sometimes three, coupled resonant electric circuits. In 1899 Tesla moved to Colorado Springs, where he would have room for his high-voltage, high-frequency experiments: Tesla was sitting in his laboratory with his "Magnifying transmitter" generating millions of volts.
Tesla invented the first alternating current (AC) motor and developed AC generation and transmission technology, invented electric oscillators, meters, improved lights. He also experimented with X-rays and gave short-range demonstrations of radio communication.
You know the story by now - it's just physics. Water drops refract the image of the flowers behind them. Pretty physics though.
Many people may hate from " physics " but
physics is life for some of people and physics is love for someone
>> it is not love for me =D , it s just a hobby for me
:)
this photo is dedicated to Einstein
“I’m studying Physics. I’ve always had a fascination with learning how things work. Physics really explains things for me. But lately, as I learn about quantum theory and relativity I get more and more confused, the more I learn. It makes less sense, but I like it.”
Paper Collage on paper
Dimensions: 24x33
Technique: Cut-it. Analog raw collage. Paper and glue.
Title: Physics elements
NO DISPO - Non è disponibile - Μη διαθέσιμο
Owner: To be exhibited - da esporre - προς έκθεση
Agnes had her first encounter with the big blonde retriever freight train. I believe she also had her first physics lesson on momentum and inertia.
No dogs we harmed in the making of this photo, including Agnes.
File name: Physics
Title: Physics
Creator/Contributor: Puvis de Chavannes, Pierre, 1824-1898 (artist); Boston Public Library (sponsor); Lanzel, Sheryl (photographer)
Genre: Paintings; Murals
Date created: 1893-1896 (approximate)
Physical description: 1 painting : mural, oil on canvas ; visible image 14 x 7 feet
Physical description notes: Canvases completed in Puvis' studio in Paris and shipped over to Boston for installation in 1895-96. Canvas applied to the walls of the grand staircase gallery using an adhesive technique called marouflage. The artist used encaustic wax in the painting process to make the surface appear matte and more fresco-like.
Summary/Abstract: Two figures pass along telegraph wires, representing one of the latest technological advancements of the late 19th century. The white-robed figure above bears good news, while the gray-clad figure below bears bad news, her hand clasped to her distraught face. At lower left, a telegraph pole is depicted, while at upper right, a thin bolt of lightning acknowledges the presence of electricity.
General notes: Title from Description of the Decorative Paintings by Pierre Puvis de Chavannes.
Date notes: On May 25, 1893, the Trustees of the BPL contracted Pierre Puvis de Chavannes for mural work completed between 1893 and 1896. As the aging artist was reluctant to travel to Boston, he painted the panels on canvas in his Neuilly studio in France. The panels were then shipped over to the library; installation was completed in 1896.
Subjects: Physics; Telegraph lines
Collection: Mural Cycles at the Central Library, Copley Square
Location: Chavannes Gallery Murals: The Muses of Inspiration Hail the Spirit, the Messenger of Light
Rights: Copyright (c) Sheryl Lanzel
Radio-frequency quadrupole, designed to focus and accelerate particle beams. Seen here in 1983, this magnetic passageway prepared protons for injection into Brookhaven's Alternating Gradient Synchrotron—a source of fundamental physics breakthroughs and three Nobel Prizes.
BBQ anyone?
Please slip me a comment and let me know what you think.
Canon 5D Classic
17-40L
580exII on camera right + shoot through umbrella
430exII on camera left behind subject (for highlight)
Cactus v4 triggers and receivers
Hähnel remote
Dodging and burning + Layers and blending modes baby!
More quantum physics means more subatomic particles. Quarks are what make up such particles as neutrons and protons. Quarks come in six different "flavors" (yes, they're really known as flavors): Top, Bottom, Up, Down, Charm, and Strange. Top, Up, and Charm have +2/3 charge, while Bottom, Down, and Strange have -1/3 charge. They also come in different "colors": red, green, blue. To form another particle, like a proton, they have to equal a whole charge and have to have all the same color or all different colors.
I love quarks for all their quirks.