i only got uses of ionic hydrides her it is:
Ionic hydrides and their complexes are used as reducing agents. They evolve hydrogen when heated. Hence they are used as solid fuels as they ignite spontaneously.
(source: WWW.tutorvista.com)
ionic hydrides are source of producind hydrogen and as reducing agents in metallurgical processes and as dehydrating agents for organic solvents.covalent hydrides forms colourless gases,volatile liquids or solids.
USES OF COVALENT BOND:1.covalent bonding can change the ability of an ice to melt itself because when the CO2 interact with the hydrogen atoms, the atoms of water splits into lower molecules with molecular compounds.2.Makes the diamond hard.3.Strengthen the hardness of cement.:ANONYMOUS
Covalent compounds are typically composed of nonmetals or metalloids bonded together by sharing electrons. They are characterized by having low melting and boiling points, and they do not conduct electricity in solid form. Additionally, you can identify them by their molecular formula, which uses prefixes like mono-, di-, tri-, etc. to show the number of atoms of each element in the compound.
An ionic compound contains an element from the right side of the periodic table and an element from the left side of the periodic table == a metal and a nonmetal. EX: sodium chloride. GENERALLY, there is an -ide following the nonmetal element. For a covalent compound, we have to look at prefixes. ... For example, carbon dioxide. See? We have di- , tri- , etc. as prefixes. So, look at where these funny Greek sounding bits go. If they count at the beginning, it's likely a covalent compound. If you see an -ide + the name of a metal, then we've got ourselves an ionic compound. :)
Well, isn't that a happy little question! SF6 is a covalent compound, my friend. The sulfur and fluorine atoms share electrons in a covalent bond, creating a strong connection between them. Just like when we blend colors on our canvas, these atoms come together to form a stable molecule.
ionic hydrides are source of producind hydrogen and as reducing agents in metallurgical processes and as dehydrating agents for organic solvents.covalent hydrides forms colourless gases,volatile liquids or solids.
formic acid is often used as a source of hydride ion.
covalent bonding is used to share electrons
USES OF COVALENT BOND:1.covalent bonding can change the ability of an ice to melt itself because when the CO2 interact with the hydrogen atoms, the atoms of water splits into lower molecules with molecular compounds.2.Makes the diamond hard.3.Strengthen the hardness of cement.:ANONYMOUS
It's one that uses an ionic sharge to effect particles. anonymous@oola.com
Covalent compounds are typically composed of nonmetals or metalloids bonded together by sharing electrons. They are characterized by having low melting and boiling points, and they do not conduct electricity in solid form. Additionally, you can identify them by their molecular formula, which uses prefixes like mono-, di-, tri-, etc. to show the number of atoms of each element in the compound.
An ionic compound contains an element from the right side of the periodic table and an element from the left side of the periodic table == a metal and a nonmetal. EX: sodium chloride. GENERALLY, there is an -ide following the nonmetal element. For a covalent compound, we have to look at prefixes. ... For example, carbon dioxide. See? We have di- , tri- , etc. as prefixes. So, look at where these funny Greek sounding bits go. If they count at the beginning, it's likely a covalent compound. If you see an -ide + the name of a metal, then we've got ourselves an ionic compound. :)
Well, isn't that a happy little question! SF6 is a covalent compound, my friend. The sulfur and fluorine atoms share electrons in a covalent bond, creating a strong connection between them. Just like when we blend colors on our canvas, these atoms come together to form a stable molecule.
Covalent compounds are used in a wide range of applications including pharmaceuticals, plastics, electronics, and agrochemicals due to their stability and diverse properties. They are also used in everyday products like detergents, fuels, and solvents. Additionally, covalent compounds are essential in biochemical processes within living organisms.
Mostly Nitrogen (having three simple covalent bonds) uses its lone pair of electrons to form the 4th covalent bond (actually coordinate covalent or dative bond).
Nickel-metal hydride batteries are a type of rechargeable battery with an electrochemistry similar to nickel cadmium batteries, but the eliminate the toxic cadmium metal.The older nickel cadmium battery uses nickel oxide hydroxide and metallic cadmium as electrodes, while the newer nickel-metal hydride battery keeps the nickel oxide hydroxide electrode it uses a complex alloy that readily absorbs hydrogen atoms forming a metal hydride, it is the absorbed hydrogen within this hydride that actually functions as the active electrode in the battery. In addition to eliminating the toxic cadmium (making recycling or disposal easier and cheaper) this change also provides other advantages: higher battery capacity, no memory effect, etc.Some of the different alloys used in the metal hydride electrode are:titanium nickellanthanum neodymium nickel cobalt siliconcerium lanthanum neodymium praseodymium nickel cobalt silicon
A covalent compound is a compound in which the atoms that are bonded share electrons rather than transfer electrons from one to the other. While ionic compounds are usually formed when metals bond to nonmetals, covalent compounds are formed when two nonmetals bond to each other. Covalent compounds have the following properties (keep in mind that these are only general properties, and that there are always exceptions to every rule): 1) Covalent compounds generally have much lower melting and boiling points than ionic compounds. As you may recall, ionic compounds have very high melting and boiling points because it takes a lot of energy for all of the + and - charges which make up the crystal to get pulled apart from each other. Essentially, when we have an ionic compound, we need to break all of the ionic bonds in order to make it melt. On the other hand, when we have covalent compounds we don't need to break any bonds at all. This is because covalent compounds form distinct molecules, in which the atoms are bound tightly to one another. Unlike in ionic compounds, these molecules don't interact with each other much (except through relatively weak forces called "intermolecular forces"), making them very easy to pull apart from each other. Since they're easy to separate, covalent compounds have low melting and boiling points. 2) Covalent compounds are soft and squishy (compared to ionic compounds, anyway). The reason for this is similar to the reason that covalent compounds have low melting and boiling points. When you hit an ionic compound with something, it feels very hard. The reason for this is that all of the ionic bonds which hold together the crystal tend to make it very inflexible and hard to move. On the other hand, covalent compounds have these molecules which can very easily move around each other, because there are no bonds between them. As a result, covalent compounds are frequently flexible rather than hard. Think of it like this: Ionic compounds are like giant Lego sculptures. If you hit a Lego sculpture with your fist, it feels hard because all of the Legos are stuck very tightly to one another. Covalent compounds are more like those plastic ball pits they have at fast food playgrounds for little kids. While the balls themselves are held together very tightly (just like covalent molecules are held together tightly), the balls aren't really stuck to each other at all. As a result, when little kids jump into the ball pits they sink in rather than bouncing off. 3) Covalent compounds tend to be more flammable than ionic compounds. The main reason that things burn is because they contain carbon and hydrogen atoms that can react to form carbon dioxide and water when heated with oxygen gas (that's the definition of a combustion reaction). Since carbon and hydrogen have very similar electronegativities, they are mostly found together in covalent compounds. As a result, more covalent compounds than ionic compounds are flammable. There are a couple of exceptions to this rule. The first is with covalent compounds that contain neither carbon nor hydrogen. These tend not to burn, and if they do, they burn by mechanisms other than the classic combustion reaction. The other exception comes with ionic compounds referred to as "organic salts". These organic salts are ionic compounds in which the anion is basically a big covalent molecule containing carbon and hydrogen with just a very small ionic section. As a result, they burn even though they're technically ionic compounds. 4) Covalent compounds don't conduct electricity in water. Electricity is conducted in water from the movement of ions from one place to the other. These ions are the charge carriers which allow water to conduct electricity. Since there are no ions in a covalent compound, they don't conduct electricity in water. 5) Covalent compounds are insoluble in water. Naming Covalent Compounds Covalent compounds are much easier to name than ionic compounds. Here's how you do it: All covalent compounds have two word names. The first word typically corresponds to the first element in the formula and the second corresponds to the second element in the formula except that "-ide" is substituted for the end. As a result, HF is named "hydrogen fluoride", because hydrogen is the first element and fluorine is the second element. If there is more than one atom of an element in a molecule, we need to add prefixes to these words to tell us how many are present. Here are the prefixes you'll need to remember:<center>Number of atoms Prefix </center>1 mono- (use only for oxygen) 2 di- 3 tri- 4 tetra- 5 penta- 6 hexa- 7 hepta- 8 octa- Let's see how this works: Examples: P2O5 - this is named diphosphorus pentoxide, because there are two phosphorus atoms and five oxygen atoms. CO - this is carbon monoxide (you need the "mono-" because there's only one oxygen atom). CF4 - this is carbon tetrafluoride, because there's one carbon atom and four fluorine atoms.