Lithium easily react with halogens (group 17).
Alkali metals are present in group 1 of the periodic table except hydrogen which is a non-metal. these elements are:- Hydrogen(H) Lithium(Li) sodium(Na) potassium(K) rubidium(Rb) cesium(Cs) francium(Fr)
I would use epoxy..
Stable element is a element which have enough strength to hold it's atoms combined and does not emit them as a radioactive phenomena.Radioctive element doesn't have much strength to bind it's atoms and thus emits them as radiation which has a,b,y particles and extremely harmful for biological components.Eg.uranium,thorium etc.
Different elements have different valences which affect how many hydrogen atoms they will bind with.
They bind in the active site.
Beryllium has compounds with chalcogens, pnictogens, halogens, boron, carbon, silicon etc.
For S to make a covalent bond, it would be best to bind it to another non metal. Once such element would be H, thus making the S-H bond which is covalent. Another example would be to bind it to another S, making the disulfide bond, S-S which is also covalent.
to bind the group into a political body and pledge member to abide by any laws that would be established
to bind the group into a political body and pledge member to abide by any laws that would be established
enzyme complex
Alkali metals are present in group 1 of the periodic table except hydrogen which is a non-metal. these elements are:- Hydrogen(H) Lithium(Li) sodium(Na) potassium(K) rubidium(Rb) cesium(Cs) francium(Fr)
Iron Hemoglobin which contains iron, so that it con bind oxygen. Although Iron is an element. Hemoglobin is a molecule.
1 Each myoglobin molecule has one heme group and can bind one oxygen molecule. Hemoglobin on the other hand can bind up to 4 molecules of oxygen.
The answer is order
The 5 prime end of the strand.
a carboxylic acid group, or carboxyl group
2 atoms of oxygen joined togetherBy mass, oxygen is the third-most abundant element in the universe, after hydrogen and helium. At STP, two atoms of the element bind to form dioxygen.