html5-img
1 / 13

Atomic Calculations and Mass Spectrometry

Atomic Calculations and Mass Spectrometry. Quantum Orbital Video. Atomic Mass – Atomic Number = # Neutrons (p + n) - (p) = (n). 1 1 0. Complete the following chart: protons electrons neutrons H Zr Ca 2+ P 3- Al 3+ Cl -. 40 40 51. 20 18 20.

samuelbrown
Télécharger la présentation

Atomic Calculations and Mass Spectrometry

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Atomic Calculations and Mass Spectrometry Quantum Orbital Video

  2. Atomic Mass – Atomic Number = # Neutrons (p + n) - (p) = (n)

  3. 1 1 0 Complete the following chart: protons electrons neutrons H Zr Ca2+ P3- Al3+ Cl- 40 40 51 20 18 20 15 18 16 13 10 14 17 18 19

  4. Isotopes- same atomic number but different mass For example, there are 3 types of hydrogen atoms. 1H 2H 3H Not all atoms of the same element are identical.

  5. Mass Spectrometers Are used to determine the abundance and mass of the isotopes of elements

  6. Mass Spectrometers A device known as a mass spectrometercan be used to determine the relative abundanceand the mass of the isotopes of elements.  In the graph the isotopes of a sample of the element zirconium can be seen in their relative abundances.

  7. The data can be summarized as follows: IsotopeMass` Abundance 90Zr 90.00 amu              51.5 % 91Zr 91.00 amu               11.2 % 92Zr 92.00 amu               17.1 % 94Zr 94.00 amu               17.4 % 96Zr 96.00 amu              2.80 % atomic mass of isotope 100 %

  8. Calculate the weighted average mass of zirconium using the data above. Change each percent to a decimal by dividing by 100. Multiply by the mass. Add it all together. 0.515(90.00) + 0.112(91.00) + 0.171(92.00) + 0.174(94.00) + 0.0280(96.00) = 91.3 amu 3 sig figs! Look up the mass on the periodic chart. The unit amu describes how many times heavier than the mass of H = 91.2 amu They are the same with uncertainty

  9. Calculate the average atomic mass for Germanium 36.54 % 73.92115 amu 27.43 % 71.92174 amu 20.52 % 69.92428 amu 7.76 % 75.9214 amu 7.76 % 72.9234 amu (0.2052)(69.92428) + (0.2743)(71.92174) + (0.0776)(72.9234) + (0.3654)(73.92115) + (0.0776)(75.9214) = = 72.6 amu Periodic Table=72.6 amu

  10. Quantum orbitals

More Related