number of molecules / avogadro's number * molecule molecular = mass
explanation:
we define a gram-molecular weight as the mass of one mole of any element or compound. a mole contains avogadro's number of units (molecules) –
6.022
x
10
23
. so, dividing the number of molecules by avogadro's number gives us the number of moles. multiplying that by the molecular weight gives us the mass. from the periodic table we find the gram-molecular weight of u to be238 and of f to be19. so,
u
f
6
will have a gram-molecular weight of 352g.
answer : third trial had the contaminated sample and the correct value for dhrxn should be 1000 kj/mol
explanation :
let us write down the given equations
equation 1 :
equation 2 :
equation 3 :
let us use hess's law to find out which 2 equations can be added to get the third equation.
let us reverse equation 2 and multiply it by 2. the new equation that we get is,
equation 4 :
let us add equation 1 & 4
the above equation is similar to equation 3 but has different value for dhrxn.
therefore third trial had the contaminated sample and the correct value for dhrxn should be 1000 kj/mol