They are in group one called the Alkali Metals.
Those are alkali metals. They are the most reactive of all the metals, and they are in group 1 of the Periodic Table, all the way to the left.
Hydrogen, lithium, sodium, potassium, rubidium, cesium and francium are the elements located in group 1 of the periodic table.
The compound formed between lithium and selenium would have the chemical formula Li2Se. This is because lithium is in Group 1 of the periodic table and has a +1 charge, while selenium is in Group 16 and has a -2 charge.
Group 1 elements on the periodic table, such as hydrogen and lithium, are generally not stable in their elemental form because they are highly reactive due to possessing only one electron in their outer shell. They readily react with other elements to achieve a stable electron configuration.
To find the atomic mass of lithium, you would look at the periodic table and find the atomic number for lithium, which is 3. The atomic mass is typically located directly below the element symbol, which for lithium is around 6.94 grams per mole.
If you add 3 protons to lithium (which has 3 protons), you would create an element with 6 protons, which is carbon on the periodic table.
Hydrogen, lithium, sodium, potassium, rubidium, cesium and francium are the elements located in group 1 of the periodic table.
The elements are: lithium, sodium, potassium, rubidium, caesium and francium.
The compound formed between lithium and selenium would have the chemical formula Li2Se. This is because lithium is in Group 1 of the periodic table and has a +1 charge, while selenium is in Group 16 and has a -2 charge.
Group 1 elements on the periodic table, such as hydrogen and lithium, are generally not stable in their elemental form because they are highly reactive due to possessing only one electron in their outer shell. They readily react with other elements to achieve a stable electron configuration.
To find the atomic mass of lithium, you would look at the periodic table and find the atomic number for lithium, which is 3. The atomic mass is typically located directly below the element symbol, which for lithium is around 6.94 grams per mole.
Hydrogen, which is properly a member of the periodic column. If the properties of hydrogen are considered too little like those of the other elements in the this column, the alkali metals, so that only the latter are considered members of column IA, then the answer would be lithium.
If you add 3 protons to lithium (which has 3 protons), you would create an element with 6 protons, which is carbon on the periodic table.
That element would be in the Alkali Metals (group one)
Fluorine is the largest atom among Carbon, Boron, Lithium, and Fluorine. This is because atomic size generally increases down a group in the periodic table, and Fluorine is lower in the periodic table compared to Carbon, Boron, and Lithium.
The color of the box in the periodic table typically indicates the element group to which that element belongs. Elements within the same group usually share similar chemical properties. This color-coding system helps visually organize and identify elements based on their properties.
Lithium and fluorine combine to form lithium fluoride. Another element that could combine with fluorine in a similar manner to lithium is sodium, which would form sodium fluoride. Both lithium and sodium belong to the alkali metal group and share similar chemical properties.
Silicon is classified as a metalloid and is located in Group 14 (or Group IV), Period 3 of the periodic table. It has properties of both metals and nonmetals.