Strontium bromide has no apparent trade name; most likely its name and chemical formula is simple enough that it would not need one.
SrNO3 made up of: Sr NO3 Sr= Strontium (found in the periodic table) NO3 = Nitrate (Found in a polyatomic ion table) So the answer would be Strontium Nitrate
The strontium ion is Sr2+ with the same electron configuration as Kr. Sr element has an atomic number of 38- the neutrl Sr tom has 38 protons in its nucleus and 38 electrons - therefore the ion Sr2+ has 2 less - 36.
If you mean a change in chemical identity, that would be a chemical change.
To balance the chemical equation for strontium reacting with chlorine gas to form strontium chloride, you would write: Sr + Cl2 -> SrCl2. This equation shows that 1 atom of strontium is reacting with 1 molecule of chlorine gas to produce 1 molecule of strontium chloride.
The chemical formula for the combination of strontium and bromine is SrBr2. In this ionic compound, strontium (Sr) has a 2+ charge, while bromine (Br) has a 1- charge, requiring two bromine atoms to balance the charges.
Strontium bromide has no apparent trade name; most likely its name and chemical formula is simple enough that it would not need one.
SrNO3 made up of: Sr NO3 Sr= Strontium (found in the periodic table) NO3 = Nitrate (Found in a polyatomic ion table) So the answer would be Strontium Nitrate
The strontium ion is Sr2+ with the same electron configuration as Kr. Sr element has an atomic number of 38- the neutrl Sr tom has 38 protons in its nucleus and 38 electrons - therefore the ion Sr2+ has 2 less - 36.
If you mean a change in chemical identity, that would be a chemical change.
no, it would change its charge not its mass.
To balance the chemical equation for strontium reacting with chlorine gas to form strontium chloride, you would write: Sr + Cl2 -> SrCl2. This equation shows that 1 atom of strontium is reacting with 1 molecule of chlorine gas to produce 1 molecule of strontium chloride.
The amount of strontium chloride produced in a reaction would depend on the specific reaction involved and the stoichiometry of the reaction. To calculate the grams produced, you would need to know the balanced chemical equation, the amount of the starting materials used, and use stoichiometry to determine the amount of strontium chloride produced.
That would be a chemical change.
Something that burns or is flammable would be a chemical change.
To calculate the mass percentage of strontium in strontium sulfide, you need to know the molar mass of strontium sulfide (SrS), which is 119.63 g/mol. The molar mass of strontium (Sr) is 87.62 g/mol. To find the mass percentage, you would divide the molar mass of strontium by the molar mass of strontium sulfide, and then multiply by 100. This would give you the mass percentage of strontium in strontium sulfide, which is approximately 73.2%.
Frying an egg is a chemical change.