Question

What is the name of each of the following elements? (a) \(\mathrm{Na}\) (b) \(\mathrm{Zn}\) (c) \(\mathrm{Si}\) (d) \(\mathrm{Sn}\) (e) \(\mathrm{Mg}\), (f) W, (g) Co, (h) \(\mathrm{Al},(\mathrm{i}) \mathrm{O},(\mathrm{j}) \mathrm{N}\)

Short answer

The elements are (a) Sodium, (b) Zinc, (c) Silicon, (d) Tin, (e) Magnesium, (f) Tungsten, (g) Cobalt, (h) Aluminum, (i) Oxygen, (j) Nitrogen.

Step-by-step solution

Identifying Element Na

To identify the element represented by the symbol 'Na', refer to the periodic table. 'Na' is the symbol for the element Sodium.

Identifying Element Zn

To identify the element represented by the symbol 'Zn', refer to the periodic table. 'Zn' is the symbol for the element Zinc.

Identifying Element Si

To identify the element represented by the symbol 'Si', refer to the periodic table. 'Si' is the symbol for the element Silicon.

Identifying Element Sn

To identify the element represented by the symbol 'Sn', refer to the periodic table. 'Sn' is the symbol for the element Tin.

Identifying Element Mg

To identify the element represented by the symbol 'Mg', refer to the periodic table. 'Mg' is the symbol for the element Magnesium.

Identifying Element W

To identify the element represented by the symbol 'W', refer to the periodic table. 'W' is the symbol for the element Tungsten.

Identifying Element Co

To identify the element represented by the symbol 'Co', refer to the periodic table. 'Co' is the symbol for the element Cobalt.

Identifying Element Al

To identify the element represented by the symbol 'Al', refer to the periodic table. 'Al' is the symbol for the element Aluminum (or Aluminium).

Identifying Element O

To identify the element represented by the symbol 'O', refer to the periodic table. 'O' is the symbol for the element Oxygen.

Identifying Element N

To identify the element represented by the symbol 'N', refer to the periodic table. 'N' is the symbol for the element Nitrogen.

Key concepts

The Periodic Table

The periodic table is a fundamental tool in chemistry, showcasing the entire collection of known elements in an organized way. It lays out all elements in a series of rows and columns based on increasing atomic number, which is the number of protons in an element's nucleus. Elements are also arranged in such a way that those with similar chemical properties fall into the same columns, known as groups or families.

For example, the column containing fluorine (F), chlorine (Cl), and bromine (Br) consists of elements known as halogens, which share similar reactivity patterns. Similarly, the elements in the first column, like lithium (Li) and sodium (Na), are all alkali metals, characterized by their high reactivity and one valence electron. Other significant patterns include the alternation between metals, nonmetals, and metalloids and the identification of transition metals, which inhabit the central block of the table.

Understanding the periodic table's layout helps students predict an element's properties and behavior. For instance, elements found on the right side tend to be nonmetals with higher electronegativities, while those on the left are typically metals with lower electronegativities.

Chemical Symbols

Chemical symbols are one- or two-letter abbreviations used to represent elements, derived from their English or Latin names. This shorthand method aids in simplifying chemical equations and compound formulas. For instance, 'H' represents hydrogen, 'C' for carbon, and 'O' for oxygen, each element corresponding to a unique symbol.

Some symbols, such as sodium's 'Na', come from the element's Latin name, natrium. The same rule applies to 'Sn' for tin, which originates from its Latin name, stannum. Knowing chemical symbols is crucial for communication in chemistry education. They eliminate the need for writing full element names, particularly when dealing with compounds or reactions involving several elements. Moreover, learning these symbols allows students to quickly recognize and understand chemical equations and the periodic table.

Why Chemical Symbols Matter

In addition to functioning as an international language for chemists, chemical symbols standardize scientific communication across different languages and regions. They make it possible for students and professionals to discuss complex chemical concepts with clarity and efficiency, highlighting the importance of mastering them early in chemistry education.

Chemistry Education

Chemistry education aims not only to impart knowledge about chemical substances and reactions but also to develop critical thinking and problem-solving skills. A strong foundation in chemistry concepts, including understanding the periodic table and chemical symbols, equips students with the tools necessary for analyzing and synthesizing information.

Educators emphasize the value in being able to identify elements by their symbols and predict their properties based on their position in the periodic table. By doing so, student comprehension extends beyond memorization to include a deeper understanding of the relationships between elements and the laws governing chemical interactions.

Practical Application and Theory

In chemistry education, practical laboratory experiences complement theoretical learning. Students are encouraged to apply what they've learned in the classroom to real-world situations through experiments that illustrate the principles and theories discussed. This hands-on approach fosters a more engaging and memorable learning experience, leading to a better grasp of complex chemical concepts and a more profound appreciation for the natural world's chemical phenomena.