Optics java applets and animations: 
related topic: Physics-Optics
animations |
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Interactive color wheel
applet wheel of saturation, intensity, and hue |
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Interactive color wheel select Hue, Saturation, and Lightness |
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Kathodenstrahlröhre-Beschleunigung |
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Lava Lamp |
| Lightning
- an example of a natural capacitor clouds and the ground can act in unison to mimic a huge natural capacitor. This tutorial shows how the
collisions of dust with ionizing radiation can cause electrons to be knocked off of particles, creating a charge separation in the clouds, resulting in
lightning |
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Neon Discharge lamp Neon Discharge lamp animation |
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Neon Lights and Other Discharge Lamps |
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Neon lamp animation animation |
| Relaxateur à néon
en Français |
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Relationships between HSB and RGB color descriptions
Hue, Saturation, and Brightness, red green, blue |
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Teinte Saturation Lumière |
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Tube
fluorescent |
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Horizontaal |
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Solar cell operation
related topic:
Solar
cells: part of physics |
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How PV Cells Work |
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Inside PV Systems
What goes on inside a photovoltaic (PV) cell? How can it turn sunlight into
electricity? Find out on this virtual tour of a PV cell. Watch photons, atoms,
and electrons interact to produce an electrical current |
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Photoelectric effect
A freshly polished, negatively charged zinc plate looses its charge if it is
exposed to ultraviolet light. This phenomenon is called the photoelectric effect |
| Photo-electric
effect
study the photo-electric effect with three different materials, sodium, cesium, and silver |
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Photoelectric effect
This applet shows you the effect of light on various metals |
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Photovoltaic cell animation
The photovoltaic cells rely on a phenomenon
called the photoelectric effect to directly convert sunlight into electricity.
All light carries little bundles of energy called " photons ". When photons
strike certain materials they cause it to emit electrons, Photovoltaic cell
animation |
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Solar cell operation
Photovoltaic Electricity |
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Solar cell operation
solar cells convert light energy into electrical energy either indirectly by first converting it into heat, or through a direct process known as the photovoltaic effect. The most common types of solar cells are based on the
photovoltaic effect, which occurs when light falling on a two-layer semiconductor material produces a potential difference, or voltage, between the
two layers |
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Solar Cell
Operation |
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Solar
installations Photo Voltaic (PV) cells |
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Solar
battery
how a Solar battery works, If light hits the semiconductor to which
pn is connected, the hall and the electron appear, and it becomes a battery |
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Solar cell how a Solar cell works, Solar Cell: design calculation |
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Solar cell animation
When energy is received from the sun in the form of photons, some
of the photons are absorbed near the junction, freeing the electrons and
holes in the silicon. The photons of light give enough energy for the electrons
to cross the junction, where they can be picked up on the metal contacts on the
surface of the solar cell and move through an external circuit. After moving
through the external circuit and performing work (such as powering a lamp or
motor) the electrons return to the solar cell |
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Solar cells: animation
Solar cells: animation |
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The Basics of a Photovoltaic Solar Cell
The common solar cell that many of
us have seen is called a photovoltaic solar cell |
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Horizontaal |
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2010-01-01
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