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THE MOLE. TOO SMALL TO SEE Because atoms are so small, it makes more sense to measure large amounts of atoms in reactions. One mole of a substance contains.

Published byHugh Nichols Modified over 8 years ago

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Presentation on theme: "THE MOLE. TOO SMALL TO SEE Because atoms are so small, it makes more sense to measure large amounts of atoms in reactions. One mole of a substance contains."— Presentation transcript:

1 THE MOLE

2 TOO SMALL TO SEE Because atoms are so small, it makes more sense to measure large amounts of atoms in reactions. One mole of a substance contains the same number of particles as atoms in 12 grams of Carbon-12

3 THE AVAGADRO CONSTANT 1 mole of a substance contains 6.022 x 10 23 particles Thats 602 200 000 000 000 000 000 000 particles!!!

4 EQUATION To calculate the moles in a substance we use the following equation: Moles of Atoms = Mass/Relative Atomic Mass

5 R.A.M. Relative Atomic Mass is the A r value from the Periodic Table

6 QUESTION How many moles of atoms are there in 2.4 g of carbon?

7 ANSWER Moles of atoms = mass/R.A.M. = 2.4/12 = 0.2 moles

8 THE MAGIC TRIANGLE Using the magic triangle we can rearrange the equation to find mass instead of moles

9 QUESTION What is the mass of 0.1 moles of Carbon Atoms?

10 FOR A COMPOUND A compound has more than one type of atom, so we have to find the Relative Formula Mass (R.F.M.) We do this by adding the A r of the elements in the molecule. So the equation then becomes: Moles = Mass/R.F.M.

11 QUESTION How many moles are there in 8 g of copper(II) oxide (formula CuO)? 1. Find the RFM Cu = 64 O = 16 So the RFM of CuO is 80 ….then just follow the equation…

12 QUESTIONS How many moles of atoms are there in: 1.2 g of hydrogen 2.36 g of carbon 3.160 g of oxygen 4.14 g of nitrogen 5.0.19 g of flourine

13 QUESTIONS How many moles of molecules are there in: 1.26 g of H 2 O 2.170 g of NH 3 3.1.6 g of CH 4 4.O.2 g of C 2 H 6 5.16 g of NH 4 NO 3

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