Some physical properties of the compound are related in this way.
Molecular mass of the compound, depends on the atomic masses of the elements.
Wether the compound is ionic or covalent depends on the nature of the bonds which depends on the electronic configuration of the elements.
Boiling pont depends, solubility, melting point and others depend on the strength of the bonds, wich depends on the electronic configuration of the elements.
So many other properties also are determined by the properties of the elements and the bonding of them to form the compound.
Solubility of the compound depends on
I need to know what goes in the blanks for the nuclear reactions
1.) ²³⁵92U → _____ + ²³¹90Th
Answer 1: ²³⁵92U → ⁴2He + ²³¹90Th
2.) ¹1H + ³1H → _____
Answer 2 : ¹1H + ³1H → ⁴2He
3.) ⁶3Li + ¹0n → ⁴2He + _____
Answer 3 : ⁶3Li + ¹0n → ⁴2He + ³1H
4.) ²⁷13Al + ⁴2He → ³⁰15P + ___
Answer 4 : ²⁷13Al + ⁴2He → ³⁰15P + ¹0n
5.) ⁹4Be + ¹1H → ___ + ⁴2He
Answer 5 : ⁹4Be + ¹1H → ⁶3Li + ⁴2He
6.) ³⁷19K → ⁰+1e⁻ + ____
Answer 6 : ³⁷19K → ⁰+1e⁻ + ³⁷19K⁺
Hope this helps!
Answer:
The formation of large molecules from small repeating units is known as <u>Condensation</u> reactions.
Explanation:
Those reactions in which two molecules join together with a elimination of small neutral molecule like H₂O, CH₃OH, HCl e.t.c are known as condensation reactions.
Polymerization reactions are those reactions in which small molecules called as monomers join together to form a large molecule also known as polymers. These reactions are done via different mechanisms among which one is the condensation reaction.
Example:
Proteins (polymer) are made up of amino acids (monomers) through condensation reaction as,
n H₂N-RH-COOH → H₂N-[-RH]n-COOH + n H₂O
In above equation "n" represent large number, H₂N-RH-COOH represent amino acid (monomer) and H₂N-[-RH]n-COOH represent protein (polymer). While, the H₂O eliminated is the small neutral molecule.
Answer:
do you speak english? just curious?
Explanation:
Answer:
- <u>Decreasing the temperature of the system will shift the reaction rightward.</u>
Explanation:
The complete question is:
Given the equation representing a system at equilibrium:
- N₂(g) + 3H₂(g) ⇌ 2NH₃(g) + energy
what changes occur when the temperature of this system is decreased?
<h2>Solution</h2>
Modifying the temperature of a system in equilibrium changes the equilibrium constant and the equilibrium position (concentrations) of the system.
When the temperature is decreased, following LeChatelier's principle that the system will react in a way that seeks to counteract the disturbance, the reaction will shift toward the reaction that produces more heat energy to compensate the temperature decrease.
Thus, decreasing the temperature of the system will favor the forward reaction, more N₂(g) and H₂(g) will be consumed and more NH₃(g) and energy will be produced. Hence, the equilibrium will shift rightward.