Fill in the blanks. The ratio of the gram atomic weight of nitrogen and oxygen is __

Understanding atomic weight is fundamental to comprehending the composition of chemical elements. It refers to the average mass of atoms of an element, measured in atomic mass units (amu), and is calculated based on the natural isotopic abundance of the element's isotopes in a given sample. Essentially, atomic weight is a weighted average of the masses of all the isotopes of an element. For example, the atomic weight of Nitrogen (N) is approximately 14 amu, and the atomic weight of Oxygen (O) is approximately 16 amu.

The concept of atomic weight becomes particularly useful when dealing with chemical reactions and stoichiometry, as it allows chemists to measure out equal numbers of atoms by weighing out amounts of elements in the ratio of their atomic weights. This is crucial because while atoms are too small to count individually, their weights can be measured accurately with a balance.

Chemical elements are pure substances that consist entirely of one type of atom and are classified in the periodic table. Each element has a unique number of protons in its nucleus, known as the atomic number, which determines the element's chemical properties. For instance, Nitrogen (N) has an atomic number of 7, and Oxygen (O) has an atomic number of 8, which signifies that Nitrogen atoms contain 7 protons, while Oxygen atoms contain 8 protons.

Significance of Elements in Chemistry

Elements are the building blocks of all matter, and their interactions form the basis of chemical reactions. Understanding the properties of individual elements, such as their atomic weight, allows scientists to predict how they will react with others. This is integral not only for constructing compounds but also for practical applications in industries, medicine, and environmental science.

Ratio calculation plays a vital role in various scientific disciplines, including chemistry, where it's often used to express the relationship between the amounts of substances involved in a reaction. To calculate a ratio, divide the quantity of one element by the quantity of another. In the context of gram atomic weight, the procedure involves dividing the atomic weight of one element by that of another to find their relative proportions.

In our exercise, the ratio was simplified by dividing both the atomic weight of Nitrogen and Oxygen by 2, simplifying the calculation and resulting in a more understandable ratio of 7:8. Students need to grasp that ratios can often be simplified and expressing a ratio in its simplest form makes it easier to comprehend and use in further calculations.