Halogens can add to alkanes via a free radical mechanism, particularly in the presence of light. You'd get a certain amount of alkyl halides.
Bromine (Br) has a molar mass of 79.904 amu (atomic mass units), which is extremely close to 80. Bromine is diatomic so when two bromine molecules are put together to create a diatomic gas, the molar masses of each bromine add to get a combined molar mass of 160 amu.
ionic bond
Smh its easy it makes a granatial/basaltial mixed rock
Bromine, Br2, reacts with water to produce hypobromite, OBr-. The position of the equilibrium depends very much upon the pH of the solution. Br2(l) + H2O(l) ⇌ OBr-(aq) + 2H+(aq) + Br-(aq)
Bromine's melting point is -7.2 °C, so at -5 °C, bromine would be a liquid.
they would react
Nothing would happen.
if you mean what color it would turn it would be brown
well its simple the bromine would go back to how it was and act like nothing ever happened
The two chemicals fizzle and burn through the surface they've been mixed on.
LiBr would be the chemical formula. Lithium has +1 electron and Bromine has -1 electron so they combine easily.
Nothing much would probably happen. As long as they are about equal in terms of amount, they both should work just fine to be baked and all.
Then your assortment is not independent. It means that the genes/chromosomes are not being randomly mixed, and that there are traits that would tend to move together...
Calcium Hydroxide (slaked lime) would form with the evolution of much heat. CaO + H2O -----> Ca(OH)2
nothing
228, and um...... enrich said that the chart showed the atomic radius, and if Bromine's atomic radius is 114, then if I added together, then it would be 228
All of the primary colors mixed together would create brown.