0
The atomic number for iodine 53 how many bond with hydrogen will it have and why?
Iodine, with an atomic number of 53, belongs to Group 17 of the Periodic Table, also known as the halogens. Halogens typically form one covalent bond with hydrogen due to their need to gain one electron to achieve a stable electron configuration. Therefore, iodine will form one bond with hydrogen to complete its outer electron shell and achieve a stable configuration.
What else can I help you with?
If the atomic number of iodine is 53 how many bond will it make with hydrogen?
One covalent bond is between iodine and hydrogen.
What is the bond between H and I electrons?
Covalent bond is formed between the two atoms (hydrogen and iodine) in HI.
What atomic or hybrid orbital on I makes up the sigma bond between I and F in iodine pentafluoride IF5?
In iodine pentafluoride (IF5), the sigma bond between iodine (I) and fluorine (F) is formed by the overlap of an sp³d hybrid orbital from iodine with the 2p orbital of fluorine. Iodine undergoes hybridization to accommodate its coordination number of five, leading to the formation of sp³d hybrid orbitals. This allows iodine to effectively bond with the five fluorine atoms, resulting in the molecular structure of IF5.
What elements can bond with plutonium?
Oxygen, hydrogen, fluorine, chlorine, bromine, iodine, carbon, sulphur, nitrogen, silicon, etc.
Why catalyst required when hydrogen reacts with iodine?
A catalyst is required when hydrogen reacts with iodine to help break the strong bond between hydrogen molecules, allowing them to react with iodine more readily. The catalyst assists in lowering the activation energy required for the reaction to occur, thereby increasing the rate of the reaction.
If the atomic number of iodine is 53 how many bond will it make with hydrogen?
One covalent bond is between iodine and hydrogen.
How many bonds does iodine have with hydrogen?
Iodine typically forms one covalent bond with hydrogen.
How many bonds does iodine have to hydrogen?
Iodine typically forms 1 covalent bond with hydrogen.
What molecule would be formed from atom of sulfur with atomic number 16 and atom formed from hydrogen with atomic number 1?
A molecule formed from a sulfur atom (S) with atomic number 16 and a hydrogen atom (H) with atomic number 1 would result in hydrogen sulfide (H2S). In this molecule, two hydrogen atoms bond with a sulfur atom to form a covalent bond.
What bond is formed bwtween hydrogen and iodine?
The bond formed between hydrogen and iodine to produce HI is a polar covalent bond. One might think it would be ionic because of the large differences in electronegativity, but the strict definition of ionic would be a metal and a non metal. This is not the case in HI. So, strictly speaking it is covalent, but has a large degree of ionic character.
What does iodine bond with?
Iodine typically forms bonds with elements like hydrogen, oxygen, and other halogens such as chlorine and fluorine. It commonly forms compounds such as hydrogen iodide (HI), iodine oxide (I2O5), chlorine iodide (ICl), and iodine pentafluoride (IF5).
How many bonds are shared between Iodine and hydrogen?
one bond; H-I.
The bond in the diatomic iodine molecule I2 is but the bond in hydrogen iodide HI is?
pure covalent/ polar covalent
What is the bond between H and I electrons?
Covalent bond is formed between the two atoms (hydrogen and iodine) in HI.
What type of bond does the element Hl have?
Hydrogen iodide is not an element, but a compound made out of hydrogen and iodine. It is a polar covalent compound.
How does saturated fat effect iodine atoms?
unsaturated are oils that have double bonds in their structure because there is not enough hydrogen atoms to bond with the carbon atoms. In such case, carbon atoms bond to each others to form double or triple bonds. adding iodine, saturates the oil as iodine atoms bond to carbon atoms as if they were hydrogen atoms. This is an answer to the question that should read: How does iodine affect unsaturated fats?
What elements can bond with plutonium?
Oxygen, hydrogen, fluorine, chlorine, bromine, iodine, carbon, sulphur, nitrogen, silicon, etc.
