Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Moles! - Ms. Johnson Teaches Science!
Transcript
Moles! S What is a mole? It is a unit of measure! S The mole is used in chemistry to express very large quantities of atoms or molecules S One mole is equal to 6.02 x 1023 atoms/molecules/things! S So what does a chemistry mole look like? Moles in Chemistry S One mole of water is only 18 g in mass S 1 mole of donuts would cover the Earth completely, and be 8 m deep! S 1 mole of pennies would be enough for the whole world to spend 1 million dollars each day! Where did the mole come from? S The standard number used for the mole, 6.02x1023 was chosen because that is the number of particles found experimentally in 12g of carbon-12 S Why carbon-12? It was arbitrarily chosen as the reference point for the International System of Units S 6.02x1023 is also called Avogadro’s number in honor of Italian physicist Amedeo Avogadro S He had proposed that equal volumes of gas contained equal numbers of particles So, why do we care??? S The mole helps us understand what is happening during a chemical reaction at a macroscopic scale S We can find out exactly how much of a substance is needed for a chemical reaction to occur. This helps us prevent wasting any expensive chemicals and ensuring that we get exactly what we want out of a reaction. Ms. Johnson, we are so excited about the mole! Let’s get started! Step 1: Molar Mass S Molar mass is a physical property of a substance S It is the weight of one mole of some substance S Expressed in unit form as g/mol S So we have the mass (g) divided by the amount of the substance (1 mole) S Shortcut time: the molar mass of an element is it’s atomic mass! Solving for the Molar Mass of an Element S The molar mass of Oxygen is: S The molar mass of Magnesium is: S The molar mass of Tellurium is: Solving for the Molar Mass of a Compound 1. Determine the elements you have in the compound 2. Find the atomic mass of those elements 3. Determine how many of each element you have 4. Multiply the number of elements you have by the atomic mass of that element 5. Add it all together! Example Let’s try finding the molar mass of H2O 1. Elements in the compound 2. Atomic Mass 3. How many of each element in the compound? 4. Multiply 5. Add Example S What is the molar mass of NaCl 1. Elements in the compound 2. Atomic Mass 3. How many of each element in the compound? 4. Multiply 5. Add Example S What is the molar mass of Mg3(PO4)2 1. Elements in the compound 2. Atomic Mass 3. How many of each element in the compound? 4. Multiply 5. Add Let’s Practice! Exit Ticket S What is the molar mass of H2SO4? S Write your answer on a half sheet of paper with your name on it and hand it to me in order to leave!
