Each carbon atom covalently bonds with atoms of carbon, hydrogen, oxygen, and nitrogen.
Each carbon atom ionically bonds with atoms of oxygen and nitrogen.
Each carbon atom covalently bonds with atoms of oxygen and nitrogen.
Each carbon atom covalently bonds with atoms of carbon, hydrogen, oxygen, and nitrogen describes why carbon can form a wide variety of organic compounds. thus, option B is correct.
Valency is the combining power of an element. Elements in the same group of the periodic table have the same valency. The valency of an element is related to how many electrons are in the outer shell.
Carbon can form a wide variety of organic compounds because Each carbon atom covalently bonds with atoms of carbon, hydrogen oxygen, and nitrogen. a carbon atom can have 4 single valence electrons around it. This allows it to form covalent bonds with many different atoms.
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b. secondary succession has soil
c. primary succession has soil
d. primary succession has water
n-butane
All of these
n-pentane
n-hexane
(2) 40. mL at 80.°C (4) 80. mL at 40.°C
For the given chemical reaction, 15 moles of sulfur are required to produce 15 moles of sulfur dioxide.
A chemical equation can be defined as a representation of a chemical reaction in the form of symbols of the substances. A chemical equation consists of contributing reactants in the reaction, formed products, and their physical states.
The chemical equation in which the number of atoms of each element is equal on both sides of the equation is called a balanced chemical equation.
The law of conservation of mass follows by a balancing of a chemical equation therefore, the total mass of the elements on the reactant side must be equal to the total mass of elements on the product side.
Given, the chemical equation is: S + O₂ → SO₂
From the above equation, we can say that one mole of sulfur produces one mole of sulfur dioxide.
Given the moles of the sulfur dioxide = 15 moles
The moles of sulfur required to make 15 moles of sulfur = 15 moles
Therefore, 15 moles of sulfur are required for the given conditions.
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