3 different isomers exist.
There are two types of geometric isomers possible in octahedral complex ions: cis and trans isomers. For a complex with six different ligands, there can be a maximum of 30 different cis and trans isomers.
There are three isomers of C2H2Br2: 1,1-dibromoethane, 1,2-dibromoethane, and vinyl bromide.
CH3CH2COOH and CH3CHOHCHO have chiral centers, which are carbon atoms bonded to four distinct groups. Their mirror images are non-superimposable. This asymmetry results in optical isomerism, where the molecules exist as enantiomers.
Your question is not specific enough - what do you mean by isomer? If you mean stereoisomers (likely question with biomolecules) the two most common stereoisomers of glucose are L-glucose and D-glucose. There are 4 chiral carbons in glucose so there would be 42 or 16 possible stereoisomers. The other most important stereoisomers would be mannose and galactose.
The optical isomers of D-fructose are D-fructose (also known as D-arabino-hexulose) and L-fructose (also known as L-sorbofuranose). These isomers differ in their spatial arrangement around a chiral carbon atom, leading to different optical properties.
There are two types of geometric isomers possible in octahedral complex ions: cis and trans isomers. For a complex with six different ligands, there can be a maximum of 30 different cis and trans isomers.
Yes.
Butune is a nonsubstituted alkane that can exist as one of only two isomers.
There are three isomers of C2H2Br2: 1,1-dibromoethane, 1,2-dibromoethane, and vinyl bromide.
An isomer is a molecule or compound that has the same number of atoms as another but a different structure, different physical and chemical properties. Isomers can exist because in large molecules there are several different ways you can position the same elements to make different structures.
CH3CH2COOH and CH3CHOHCHO have chiral centers, which are carbon atoms bonded to four distinct groups. Their mirror images are non-superimposable. This asymmetry results in optical isomerism, where the molecules exist as enantiomers.
Your question is not specific enough - what do you mean by isomer? If you mean stereoisomers (likely question with biomolecules) the two most common stereoisomers of glucose are L-glucose and D-glucose. There are 4 chiral carbons in glucose so there would be 42 or 16 possible stereoisomers. The other most important stereoisomers would be mannose and galactose.
It is not possible for allah to exist as with any all powerful deity it is not possible for allah to produce a rock so large that even they could not move it.
The magnitude of the least possible current that could exist is zero, in the absence of any flow of charge.
MgC2O4 is most probably named 'magnesium oxalate', though isomers might exist.
1.6 x 10-19 Amps
It could be Straight, Branched, and Ring-Shaped.