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What is the products obtained when pyridine reacts with sodamide?
When pyridine reacts with sodamide, the products obtained are sodamide anion (NaNH2) and a protonated pyridine molecule. The NaNH2 acts as a strong base and abstracts a proton from the pyridine molecule to form sodamide anion and a protonated pyridine.
What molecule loses a proton to form the nitrate ion?
The molecule of nitric acid lose a hydrogen atom, not only a proton.
When a hydroxide ion accepts a proton?
When a hydroxide ion accepts a proton, it forms a water molecule. This is an example of a neutralization reaction, where an acid (donates a proton) reacts with a base (accepts a proton) to form water and a salt.
Is the proton proton reaction an example of a fission reaction?
No, this is the fusion reaction which occurs in the sun and other stars. See the link below.
What does intramolecular proton transfer mean?
Intramolecular proton transfer refers to the movement of a proton within a molecule, typically from one atom to another. This phenomenon often occurs in chemical reactions involving acids and bases, where a proton is transferred from a donor atom to an acceptor atom within the same molecule. Intramolecular proton transfer can affect the molecule's structure, stability, and reactivity.
What is the products obtained when pyridine reacts with sodamide?
When pyridine reacts with sodamide, the products obtained are sodamide anion (NaNH2) and a protonated pyridine molecule. The NaNH2 acts as a strong base and abstracts a proton from the pyridine molecule to form sodamide anion and a protonated pyridine.
What particle can an ammonia molecule can accept from an acid?
An ammonia molecule can accept a proton (H+) from an acid to form ammonium ion (NH4+). This reaction helps in neutralizing the acid.
What determines the extent to which a proton-transfer reaction occurs?
The extent of a proton-transfer reaction is determined by the relative stability of the products and reactants. If the products are more stable than the reactants, the reaction is more likely to occur to a greater extent. Additionally, factors such as temperature, solvent, and concentration of reactants can also influence the extent of the reaction.
What is the effect of a Cannizzaro reaction?
The effect of a Cannizzaro reaction involves the attack of hydroxide. This results in an attack on another molecule, which results in the exchange of a proton.
Is C6H5SH a acid or base?
C6H5SH is an acid because it can donate a proton (H+) to another molecule in a chemical reaction.
What is the basictiy of nitric acid?
The basicity of an acid is equivalent to the number of protons that one molecule can donate. A nitric acid molecule can only donate one proton. Therefore, it has the basicity of one.
What are the reactants between and acid and alkali?
When an acid reacts with an alkali, the reactants are an acid and a base. The acid donates a proton (H+) while the alkali accepts the proton, forming water and a salt as the products. This type of reaction is known as a neutralization reaction.
What molecule loses a proton to form the nitrate ion?
The molecule of nitric acid lose a hydrogen atom, not only a proton.
What type of reaction takes of diethylamine with HCl?
The reaction between diethylamine and HCl is a neutralization reaction, resulting in the formation of diethylammonium chloride salt. This reaction involves the transfer of a proton from the HCl to the diethylamine molecule, forming an acidic salt.
What is a proton h plus acceptor?
A proton acceptor is a molecule or compound that can readily accept a proton (H+) and form a covalent bond, effectively acting as a base in a chemical reaction. Proton acceptors are important in many biochemical processes, such as enzyme catalysis and acid-base reactions in biological systems.
Conjugate base for h2so4?
The conjugate base for H2SO4 is HSO4-. It is formed by removing a proton from the sulfuric acid molecule (H2SO4) during a reaction.
Is hydrofluoric acid a triprotic acid?
No, hydrofluoric acid is a weak monoprotic acid, meaning it can donate one proton per molecule in a reaction.
