There is no compound with the formula CHO. However, if you meant a sugar such as glucose, the formula is C6H12O6 .
So, the total number of atoms is glucose is 6+12+6 = 24 atoms.
To find the number of atoms of hydrogen in a compound, you need to look at the chemical formula. In carbon hydroxide (CHO), there are 1 atom of hydrogen for each carbon and oxygen atom. In this case, there are 0.180 moles of CHO, so there are 0.180 moles of hydrogen atoms as well. To convert moles to atoms, you can use Avogadro's number (6.022 x 10^23) to find that there are approximately 1.08 x 10^23 atoms of hydrogen in 0.180 moles of carbon hydroxide.
no the first has 2 carbons, and would contain eth in its name the second has 3 carbons and would contan pro in its name the oh gives it a ol ending. not sure exactally on the rest but they are not the same compound
It is called a functional group . Some functional group are Alkanes ; All carbons and hydrogens are singly bonded. (C-C) Alkenes ; There is at least one pair of carbons that are doubly bonded (C=C) Alkynes ; The is at least one pair of carbons that are triply bonded.(C///C) Alcohols ; There is an '-OH' group attached to the end carbon in a chain (R-CH2OH) Aldehydes ; There is a doubly bonded 'carbon = oxygen' on the end on a chain (R-CHO) Carboxylic acids ; to the end carbon in a chain there is a doubly bonded oxygen and a singly bonded hydroxy group ( R-COOH) Esters ; R-C(=O)-O-C-R' Amines ; R- CH2-NH2 Amides ' R- C(=O)-NH2 Thiols ; R-CH2-SH There are many more functional groups, including halogens and cyclic groups. All have different reactivity and chemical properties. 'R' represents the rest of the molecule.
This is a phenyl group linked to an aldehyde.
CH4, CH3COOH....anything with Carbon except a few such as CO2 C(carbon) CO... It should be also noted that organic compound is rarely put into ratio form, and that the functional group (-CH3 -COOH -CHO etc) is always shown
CHO is the functional group for aldehydes.
Formaldehyde is an organic compound. It consists of carbon, hydrogen, and oxygen atoms bonded together.
CHO is used to denote an aldehyde group, so you would have Carbon double bonded to an oxygen and single bonded to a hydrogen. COH is used to denote an alcohol group where you have Carbon single bonded to an oxygen and the oxygen in turn single bonded to a hydrogen.
The formula of acetaldehyde is CH3CHO. It consists of two carbon atoms, four hydrogen atoms, and one oxygen atom.
This is the formula for propanal, also known as propionaldehyde.
To find the number of atoms of hydrogen in a compound, you need to look at the chemical formula. In carbon hydroxide (CHO), there are 1 atom of hydrogen for each carbon and oxygen atom. In this case, there are 0.180 moles of CHO, so there are 0.180 moles of hydrogen atoms as well. To convert moles to atoms, you can use Avogadro's number (6.022 x 10^23) to find that there are approximately 1.08 x 10^23 atoms of hydrogen in 0.180 moles of carbon hydroxide.
Ch2(cho)2 is the molecular formula for malondialdehyde.
Besides carbon, hydrogen, and oxygen, CHO compounds can also include other elements such as nitrogen, sulfur, phosphorus, and halogens like fluorine, chlorine, bromine, and iodine. The specific elements present in a CHO compound depend on the molecular structure and composition of the compound.
When 'CHO' is seen in an organic formula, it is indicative of an ALDEHYDE. e.g. R-CHO Aldehyde. R-CH2OH Alcohol R-COOH Carboxlic Acid. These are ther internationally IUPAC recognised formula for different functional groups.
CHO stands for carbohydrates, which are macronutrients that provide energy to the body. They are composed of carbon, hydrogen, and oxygen atoms. Examples of foods high in CHO include grains, fruits, vegetables, and sugar.
Many atoms are not found in 'CHO or fat.' 'Fat' or lipid is a long molecule made up of a string of carbons which are singly or doubly bonded to hydrogens. CHO I would imagine is made up of carbon, hydrogen and oxygen. Every element that isn't carbon, hydrogen or oxygen is not found in CHO or fat. I have a feeling that this is not the question you meant to ask though.
The compound CH3-CH2-CH2-CH2-CH2-CH2-CHO is an aldehyde with a straight-chain structure. It consists of a seven-carbon chain (heptanal) with an aldehyde functional group (-CHO) at one end. Therefore, the correct IUPAC name for this compound is heptanal.