Presentation is loading. Please wait.

Presentation is loading. Please wait.

How to calculate it! Average Atomic Mass.

Published byMatthew Cannon Modified over 6 years ago

Similar presentations

Presentation on theme: "How to calculate it! Average Atomic Mass."— Presentation transcript:

1 How to calculate it! Average Atomic Mass

2 Quiz! Write the number of protons, neutrons and electrons for each isotope: 1. B-11 2. C-14 3. H-2 4. O-18 5. Na-23

3 Average Atomic Mass Weighted average of all isotopes’ masses for an element Calculate: Percent of isotope one * mass of that isotope PLUS Percent of isotope two * mass of that isotope Percent of isotope three * mass of that isotope And so on!

4 Example Naturally occurring copper is 69.17% copper-63 with a mass of amu and 30.83% copper-65 with a mass of amu. What is the average atomic mass of copper? What we know: Cu % amu Cu % amu Equation: %*mass + %*mass = average mass

5 Example continued Substitute: Solve!
(0.6917)(62.929) + (0.3083)(64.929) = avg mass Solve! amu amu = amu

6 Radioactive Isotopes Some isotopes have too many particles in the nucleus Radioactive decay: nucleus breaks, forming a new element May take many decay steps to reach a stable isotope Time it takes half the atoms to decay is called half life

7 Problem solving activity p 552
Radioactive Element Changes to Element Half-life U-238 Pb-206 4 460 my K-40 Ar-40 1 260 my Rb-87 Sr-87 my C-14 N-14 5 730 years How many years would it take for half the Rb-87 atoms in a piece of rock to decay? How long would it take for 75% of the atoms to decay?

8 Problem solving activity p 552
Radioactive Element Changes to Element Half-life U-238 Pb-206 4 460 my K-40 Ar-40 1 260 my Rb-87 Sr-87 my C-14 N-14 5 730 years After a long time only 25% of the atoms of U-238 remain. How old would you predict the rock is? What element are the other 75% of the atoms now?

Download ppt "How to calculate it! Average Atomic Mass."

Similar presentations

Isotope Notation Isotope Notation uses a symbol to convey information about an isotope of a particular element. 23 Na 11.

Isotope Notation Isotope Notation uses a symbol to convey information about an isotope of a particular element. 23 Na 11.
4.3: HOW ATOMS DIFFER ATOMIC NUMBER

4.3: HOW ATOMS DIFFER ATOMIC NUMBER
Average Atomic Mass & % Abundance

Average Atomic Mass & % Abundance
AIM: HOW TO CALCULATE THE AVERAGE ATOMIC MASS? DO NOW:1. WHAT ARE THE 3 SUBATOMIC PARTICLES OF AN ATOM? LIST THE THREE SUBATOMIC PARTICLES AND THEIR CHARGE.

AIM: HOW TO CALCULATE THE AVERAGE ATOMIC MASS? DO NOW:1. WHAT ARE THE 3 SUBATOMIC PARTICLES OF AN ATOM? LIST THE THREE SUBATOMIC PARTICLES AND THEIR CHARGE.
Atomic Structure Nucleus – contains protons and neutrons

Atomic Structure Nucleus – contains protons and neutrons
Chapter 11B Notes Determining Isotope Masses. Intro What is the mass of an atom with 6 protons and 6 neutrons? 12 What is the mass of an atom with 6 protons.

Chapter 11B Notes Determining Isotope Masses. Intro What is the mass of an atom with 6 protons and 6 neutrons? 12 What is the mass of an atom with 6 protons.
OF PROTONS, NEUTRONS AND ELECTRONS IN AN ATOM

OF PROTONS, NEUTRONS AND ELECTRONS IN AN ATOM
 Protons, neutrons, electrons too  Make up the atoms all around you!

 Protons, neutrons, electrons too  Make up the atoms all around you!
Average Atomic Mass. Masses of Atoms A scale designed for atoms gives their small atomic masses in atomic mass units (amu) An atom of 12 C was assigned.

Average Atomic Mass. Masses of Atoms A scale designed for atoms gives their small atomic masses in atomic mass units (amu) An atom of 12 C was assigned.
ISOTOPES and RELATIVE ABUNDANCE What is an isotope? What is relative abundance?

ISOTOPES and RELATIVE ABUNDANCE What is an isotope? What is relative abundance?
Isotopes Atoms of the same element that different mass numbers

Isotopes Atoms of the same element that different mass numbers
Ions An atom that carries an electrical charge is called an ion If the atom loses electrons, the atom becomes positively charged (because the number of.

Ions An atom that carries an electrical charge is called an ion If the atom loses electrons, the atom becomes positively charged (because the number of.
The Atom.

The Atom.
Number of Protons = Number of Electrons Number of Protons = Atomic Number Atomic Mass = Protons + Neutrons.

Number of Protons = Number of Electrons Number of Protons = Atomic Number Atomic Mass = Protons + Neutrons.
Unit 2 Review - Section 1 Atomic Structure and Mass.

Unit 2 Review - Section 1 Atomic Structure and Mass.
Average Atomic Mass.

Average Atomic Mass.
Isotopes  Atoms with the same number of protons but different numbers of neutrons  Ex) Carbon 12 vs. Carbon 14  These atoms have a different mass 

Isotopes  Atoms with the same number of protons but different numbers of neutrons  Ex) Carbon 12 vs. Carbon 14  These atoms have a different mass 
& Average Atomic Mass  Atoms with the same number of protons (they are the same element) but different number of neutrons.

& Average Atomic Mass  Atoms with the same number of protons (they are the same element) but different number of neutrons.
 Atomic Number- the number of protons in the nucleus of an atom of that element  Ex: Hydrogen atoms have only one proton in the nucleus, so the atomic.

 Atomic Number- the number of protons in the nucleus of an atom of that element  Ex: Hydrogen atoms have only one proton in the nucleus, so the atomic.
Using Isotope Data to Find a Weighted Average.  Each isotope will have two values associated with it.  Mass of Isotope  Percent Abundance (% found.

Using Isotope Data to Find a Weighted Average.  Each isotope will have two values associated with it.  Mass of Isotope  Percent Abundance (% found.

Similar presentations

Ads by Google