Germanium and arsenic can form a covalent bond since they are both nonmetals and have similar electronegativities. This type of bond involves the sharing of electrons between the two atoms to achieve a stable electron configuration.
Germanium and arsenic are both metalloids, but they have different physical and chemical properties. Germanium is a semiconductor commonly used in electronics, while arsenic is a toxic element with various applications in industry and agriculture. Their atomic structures and properties are not closely related, making them dissimilar.
This is not a good question, because it's really unclear what "similar" means. They have roughly the same density. (Yes) Their chemical reactions are somewhat different. (No) One allotrope of arsenic is grey and metallic in appearance and could reasonably be mistaken for germanium in a cursory visual examination. (Yes) Arsenic sublimes, germanium melts. (No) And so on. In order to answer the question, you'd need to define specifically what your criteria for considering things "similar" is.
Silicon and germanium can form a covalent bond when they share electrons. This type of bond involves the sharing of electron pairs between the atoms to achieve a stable electron configuration. Covalent bonds are strong and result in both silicon and germanium atoms achieving a more stable state.
Arsenic does not bond well with hydrogen, as arsenic hydrides are unstable and highly reactive compounds.
Germanium and arsenic are both metalloids located in the periodic table close to each other. They have some similarities such as being semiconductors and having similar electronic structures. However, they have different chemical properties, with arsenic being more toxic and germanium being used more commonly in electronic devices.
silicon, germanium
The metalloids are Boron, Silicon, Germanium, Arsenic, Antimony, Tellurium, and Polonium.
Germanium and arsenic are both metalloids, but they have different physical and chemical properties. Germanium is a semiconductor commonly used in electronics, while arsenic is a toxic element with various applications in industry and agriculture. Their atomic structures and properties are not closely related, making them dissimilar.
If it were possible to add a proton to atoms, then the germanium would turn into arsenic.
superconductor
Boron, Silicon, Germanium, Arsenic, Antimony, etc. There are also: Tellurium, Polonium, & Astatine
This is not a good question, because it's really unclear what "similar" means. They have roughly the same density. (Yes) Their chemical reactions are somewhat different. (No) One allotrope of arsenic is grey and metallic in appearance and could reasonably be mistaken for germanium in a cursory visual examination. (Yes) Arsenic sublimes, germanium melts. (No) And so on. In order to answer the question, you'd need to define specifically what your criteria for considering things "similar" is.
Arsenic does not bond well with hydrogen, as arsenic hydrides are unstable and highly reactive compounds.
The seven metalloid's are: boron, silicon, germanium, arsenic, selenium,antimony, and tellurium.http://www.bookrags.com/research/metalloids-woc/ANSWERED BY: NICK-NACK
Silicon and germanium can form a covalent bond when they share electrons. This type of bond involves the sharing of electron pairs between the atoms to achieve a stable electron configuration. Covalent bonds are strong and result in both silicon and germanium atoms achieving a more stable state.
Germanium and arsenic are both metalloids located in the periodic table close to each other. They have some similarities such as being semiconductors and having similar electronic structures. However, they have different chemical properties, with arsenic being more toxic and germanium being used more commonly in electronic devices.
Yes, germanium can be doped to become an n-type semiconductor by introducing donor impurities such as phosphorus or arsenic. This process increases the number of free electrons in the material, giving it an excess of negative charge carriers.