The molar mass for ZnCl2 is 136.286g/mole.
I am not sure what "Z" refers to. In any case, I don't think you have enough information if you only know Z and a mass.The calculation for the power of Bremsstrahlung can be found in the Wikipedia article, under "Larmar Formula". It seems that you need some additional information, such as the acceleration.
A = mass number z = atomic number so this one is a Ni isotope with a mass of 64
Obtain the molecular mass by determining the m/z value of the molecular ion peak (rightmost in the spectrum).
Its mass number is 80.Z=# of electrons=number of protons (unless it's an ion)A=Z+# of neutronsA=35+45=80
No, atomic number (z) is always bigger or at least equal to mass number (m). (If there were NO neutrons (n=0): z=p=m-n=m-0=m , ie. Hydrogen with p=1, n=0, z=m)
To find out how many moles of PCl5 can be formed from the reaction of P4 and Cl2, it is necessary to set up the stoichiometric equation. X P4 + Y Cl2 --> Z PCl5. Balancing the equation, X = 1, Y = 10, and Z = 4. This means that for every mole of P4 that reacts, 4 moles of PCl5 is produced. The next step is to find out how many moles of P4 are present in 30.0 grams. The molar mass of P4 is 123.895 g/mol, so there are .24214 moles of P4 present. Multiplied by 4, the answer is 0.96856 moles of PCl5 are produced.
There are two in current use. For an atomic mass unit, one would use the symbol "u". For a Dalton one would use "Da".
If the height (thickness) of the pizza is a, and the radius is z, then the formula is pi*z*z*a.
A = Mass Number Z = Atomic Number N = Neutron A - Z = N
z=x-mean / sd
Z = (x minus mu) divided by sigma.
I am not sure what "Z" refers to. In any case, I don't think you have enough information if you only know Z and a mass.The calculation for the power of Bremsstrahlung can be found in the Wikipedia article, under "Larmar Formula". It seems that you need some additional information, such as the acceleration.
To measure the mass of metal deposited on the surface of a metallic sheet and, by measuring the current (rate of flow of charge), to determine the . charge on an electron. Let "m"-mass deposited e-charge c-current passed t-time of passage of current Z-atomic weight F-96500col. e=(m)(c) (t)/Z (F)
A = mass number z = atomic number so this one is a Ni isotope with a mass of 64
I*I = x*x + y*y + z*z - t*t
You need to look up z-score tables.
Using the quadratic formula you get z≅4.91547594742265 or z≅-0.91547594742265