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Metals are conductors. Semiconductors are usually non-metals or metalloids.
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What are the differences between degenerate and non-degenerate semiconductors?
Degenerate semiconductors have a high concentration of charge carriers due to doping, while non-degenerate semiconductors have a low concentration. Degenerate semiconductors exhibit metallic-like conductivity and Fermi level is inside the conduction or valence band, while non-degenerate semiconductors have a well-defined band gap and behave as insulators at low temperatures.
What Do Elements B And Ge have In Common?
they are metalloids
Which group of elements share characteristics of metals and nonmetals-?
Metalloids, like silicon and arsenic, share characteristics of both metals and nonmetals. They have properties of both groups, such as being semiconductors (like nonmetals) while also having some metallic luster and conductivity.
Are metalloids metals non metals the same?
They are in between the metals and non metals
What are the properties of metaloids?
They are half metal and half nonmetal. some examples areBoronSiliconGermaniumArsenicAntimonyTelluriumPoloniumI belive that metaloids are also called semiconductors. ENJOY!
What are 3 main classes of elements and where are they located on the periodic table?
Non-metals, metals and semiconductors. Metals are on the left, non-metals on the right, and semiconductors sitting near the staircase line that divides the metals and non-metals.
How does the number of valence electrons in atoms of metalloids explain why metalloids are semiconductors?
Metalloids when used is electronics are called semiconductors.
Which type elements are used as semiconductors?
Metalloids. They are squeezed between metals and non-metals in the periodic table. They include silicon and germanium.
What properties do metals non-metals and semi-conductors have in common?
Metals, non-metals, and semiconductors are all types of materials that can conduct electricity to some extent. They also exhibit different degrees of malleability and ductility, with metals being highly malleable and ductile, non-metals being brittle, and semiconductors falling in between. Additionally, all three types of materials can be categorized based on their chemical bonding properties as either metallic, covalent, or ionic.
How do the properties of the block metals compare with those of the metals in the s-block and block?
i believe this may help a bit more than the last answer. the p-block has no transition metals and no alkali metals but it does all of the non-metals and semiconductors.
How do the properties of p block metals compare with those of the metals in the s and d blocks?
i believe this may help a bit more than the last answer. the p-block has no transition metals and no alkali metals but it does all of the non-metals and semiconductors.
How do the properties of the p block metals compare with those of metals in the s and d blocks?
i believe this may help a bit more than the last answer. the p-block has no transition metals and no alkali metals but it does all of the non-metals and semiconductors.
How do the properties of the p block metals compare with those of the metals in the s and d block?
i believe this may help a bit more than the last answer. the p-block has no transition metals and no alkali metals but it does all of the non-metals and semiconductors.
How do properties of the p block metals compared with those of the metals in the S and d block?
i believe this may help a bit more than the last answer. the p-block has no transition metals and no alkali metals but it does all of the non-metals and semiconductors.
Are metalloids electrically conductive?
Yes, metalloids have properties of both metals and non-metals. They are semiconductors, meaning they can conduct electricity to some extent, but not as well as metals. Their conductivity can be modified by controlling impurities or introducing dopants.
What elements are used in computers because they have properties of both metals and non metals?
Metalloids, such as silicon and germanium, are used in computers because they have properties of both metals and nonmetals. They can conduct electricity like metals, but also have some properties of nonmetals, making them ideal for use in semiconductors and other electronic components.
What is the connection between a metalloid and semiconductor?
The connection between a metalloid and a semiconductor is that metalloids are used in electronics as semiconductors. A semiconductor doesn't conduct electricity as well as a metal, but does conduct electricity better than a nonmetal.
