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What is the emissivity of silicon?
The emissivity of silicon can vary depending on the specific type of silicon (e.g., monocrystalline, polycrystalline) and surface condition. However, typically, the emissivity of silicon is around 0.65-0.75 in the infrared spectrum.
What type of bonding do silicon and diamonds have in common?
Silicon and diamonds both have a covalent bonding structure. In both cases, atoms are sharing electrons to form strong bonds, resulting in a rigid and highly stable structure.
Are quartz and diamonds the same?
No, quartz and diamonds are not the same. Quartz is a mineral made of silicon and oxygen, while diamonds are made of carbon. Diamonds are harder than quartz and have different physical and chemical properties.
Why was silicon named?
Because they needed a name so they made it and it was called Chickeen Nooddlee!(:
What was the reason for naming silicon?
what is the reason for the name '' silicon''
Types of solar panels?
According to SolarPanelCenter.net there are 4 types of solar panels, namely, Monocrystalline Silicon Panels, Polycrystalline Silicon Panels, String Ribbon Silicon Panels, and Amorphous Silicon Panels.
What is the emissivity of silicon?
The emissivity of silicon can vary depending on the specific type of silicon (e.g., monocrystalline, polycrystalline) and surface condition. However, typically, the emissivity of silicon is around 0.65-0.75 in the infrared spectrum.
What material is most commonly used to make photovaliac solar cell?
The most commonly used material for making photovoltaic solar cells is silicon. Silicon solar cells come in two main types: monocrystalline and polycrystalline, with monocrystalline typically being more efficient but also more expensive.
What has the author Jean-Paul Richard written?
Jean-Paul Richard has written: 'Monocrystalline silicon gradiometer for gravity experiments in space' -- subject(s): Silicon, Reduced gravity environments
Is there silicon carbide in diamonds?
No. Diamonds are formed from carbon.
Are diamonds and graphite both polymorphs of pure silicon?
No, diamonds and graphite are not polymorphs of silicon. Diamonds are a polymorph of carbon, while graphite is also a polymorph of carbon. Silicon does not form diamonds or graphite as polymorphs.
What are the different types of solar panels?
There are a few different types of solar panel, for example Polycrystalline, Mono-crystalline, Amorphous or Hybrid. Amorphous provides the best efficiency in low light conditions but does result in larger panel sizes.
What is cost of monocrystalline solar cells?
The cost of monocrystalline solar cells varies depending on the manufacturer, quality, and quantity purchased. On average, they can cost between $0.30 to $0.50 per watt for residential use and $0.20 to $0.30 per watt for utility-scale projects. Additionally, prices have been declining in recent years due to technological advancements and economies of scale.
How do you use hard and diamonds in a simile?
The turtles shell was hard as diamonds.
Are lab diamonds as hard as real diamonds?
Yes, lab diamonds are just as hard as natural diamonds because they have the same chemical composition and crystal structure.
What type of bonding do silicon and diamonds have in common?
Silicon and diamonds both have a covalent bonding structure. In both cases, atoms are sharing electrons to form strong bonds, resulting in a rigid and highly stable structure.
What element is fake diamonds made from?
Usually man-mad Actually,they are man made they are made from plastics they look like they are the real ones but thy are not. Man-made diamonds, also known as laboratory diamonds, synthetic, or artificial diamonds, have the same chemical make up and structure as natural diamonds, i.e. those erupted to the earth's surface through volcanic pipes. Because the conditions for making diamonds in the lab can be carefully controlled, it is possible to produce diamonds in the lab that are more pure and with fewer defects than natural diamonds. Most man-made diamonds are used in industrial applications like diamond drill bits so they don't need high purity and clarity, hence the manufacturers don't spend the extra time and effort necessary to create gem quality diamonds. What makes a diamond is the chemical composition and structure -- pure carbon crystal. Fake diamonds are not made from pure carbon, rather they are usually glass, quartz, cubic zirconia, or Moissanite. They are all clear and look much like diamonds but are not as hard and may not be as brilliant. Both glass and quartz are made from silicon dioxide (SiO2). Glass is amorphous silicon dioxide while quartz is crystaline. The quartz can be either mined or man-made. Cubic Zirconia is the is the cubic crystalline form of zirconium dioxide (ZrO2). It is very hard - but not as hard as diamond. It takes a very trained eye or special lighting to see the difference between cubic zirconia and diamond. Moissanite was the name given to naturally occurring crystals of silicon carbide (SiC). The naturally occurring crystals are exceedingly rare - the first ones were found in a meteor. Since their identification in the meteor, man-made, gem quality silicon carbide has also acquired the name of moissanite. Silicon carbide is extremely hard, almost as hard as real diamonds.
