"basic" metals is a bit broad. However, i believe that the the simple elements of the Periodic Table are the most commonly known ones, right? here's a few of the simple metals, to name only a few.
There is no element with the symbol Ci. There is an element with the symbol Cl (capital C, lowercase L), chlorine, which is a non-metal.
Usually a metallic element will not react with water and so will not change pH. However, a highly reactive metal, such as sodium, potassium or calcium will react with water to form the corresponding metal hydroxide, and so forms a base.
a) Na b) Ba c) Sd) N e) no correct answerOf these options, the best answer is b) Ba. Ba is the correct answer. That should be the correct answer to this question, unless the programmer messed up.
Neither. Hydroxide is a polyatomic ion, not an element or even a substance. Only elements can be regarded as metal or nonmetals.
It is supposed that bohrium is a solid metal.
Magnesium (Mg) is a metal and it is neither acidic nor basic. It is a neutral element.
Because it is a basic element... a metal, right there next to gold and silver.
No, iron is a basic element on the periodic table with the atomic number 26 and symbol Fe. It is not a composite metal as it is made up of only one type of atom.
To make metal on Little Alchemy, you need to combine two basic elements: fire and stone. By combining these two elements, you can create the metal element in the game.
Metal is not an element. It is a term used to classify an element, but it is not an element.
Alkali is a basic, ionic salt of an alkali metal or alkaline earth metal element. Thus, the chemical composition of an alkali is: alkali metal,hydrogen,oxygen,carbon.
The basic element is carbon.
Copper metal is an element.
a metal element
Carbon is an element. It is a non metal
element K is potassium and yes it is a metal.
Metal itself is an element consisting of individual atoms and is not considered a molecule or a compound. A metal atom is the basic unit of a metal element and does not combine with other elements to form molecules or compounds in its pure form.