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 calculate the relative atomic mass of an element (which is by its definition an average), you need the mass number and relative abundance of each isotope present. Suppose we have the following data from the mass spectrometer: first isotope mn X, abundance A% second isotope mn Y, abundance B% third isotope mn Z, abundance C%. Then ram = (A/100 x X) + (B/100 x Y) + (C/100 x Z) If there are more than 3 isotopes, just do the same for each one and add all the expressions together.
A = mass number z = atomic number so this one is a Ni isotope with a mass of 64
The molar mass for ZnCl2 is 136.286g/mole.
No, only in special cases.Generally you'd also like to know the mass number (m) to calculate the neutron number (n) from the atomic number (z)m = n + z, so n = m - z(Remember that atomic number z = p which is the number of protons, so also valid:m = n + p, so n = m - p )
Obtain the molecular mass by determining the m/z value of the molecular ion peak (rightmost in the spectrum).
by using shielding material with low Z..
A = Mass Number Z = Atomic Number N = Neutron A - Z = N
It is the same as: 9*z*z*z*z
Aeff=(Zeff)/((Z/A)eff) Zeff=wi*Zi wi is weight fraction in ith element in compound. for example water has 0.112 H and 0.888 O. (Z/A)eff=wi*Zi/Ai
A z-score cannot help calculate standard deviation. In fact the very point of z-scores is to remove any contribution from the mean or standard deviation.
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To calculate the relative atomic mass of an element (which is by its definition an average), you need the mass number and relative abundance of each isotope present. Suppose we have the following data from the mass spectrometer: first isotope mn X, abundance A% second isotope mn Y, abundance B% third isotope mn Z, abundance C%. Then ram = (A/100 x X) + (B/100 x Y) + (C/100 x Z) If there are more than 3 isotopes, just do the same for each one and add all the expressions together.
z2 = z * z * 1; z = z * 1. Greatest common factor is z.
A = mass number z = atomic number so this one is a Ni isotope with a mass of 64
1 divided by 25 multiplied by z to the third power
Since 20x7z2 is a multiple of 4x5z2, it is automatically the LCM.