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01/27/15 To Do: ▫Bell Work ▫Hydrated Crystals ▫Family Project ▫Pre-Lab Hydrated Crystals Lab. Bell Work: ▫Copy To Do list into Agenda. ▫Name the following compounds: Al(NO 3 ) 3 Aluminum Nitrate NaOH Sodium hydroxide Cu(NO 3 ) 2 Copper (II) nitrate H2SH2S Hydrosulfuric acid HClO 3 Chlorous acid CCl4 Carbon tetrachloride
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Announcements New Seats Google Science Fair SIN Procedure Changes: ▫No more test corrections, but retakes will be available. ▫Students who have a C- or below will receive after school detention on Thursdays to provide time for improvement (assignment corrections, test retakes, complete missing work, etc.). You, your parents, and the administration will be notified. ▫ No Late Work without Mac Pass! You have 4 for the semester, use them! Complete them well, or you don’t get full credit. May not use the last two weeks of the quarter.
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Naming a Hydrate – Notes on pg.66 1.Name the crystal 2.Water is referred to as a hydrate. 3.Use the prefix to tell the number of water molecules. 4.The two have a dot (▪) between them. Example: CaCl 2 ▪ 2 H 2 O Use the rules above to try and name the compound on your own. 3
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Naming a Hydrate 1.Name the crystal 2.Water is referred to as a hydrate. 3.Use the prefix to tell the number of water molecules. 4.The two have a dot (▪) between them. Example: CaCl 2 ▪ 2 H 2 O Calcium chloride dihydrate 4
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Analyzing a Hydrate How do you find the amount of H2O in a hydrate? ▫You must find the number of moles of water present in 1 mole of the compound. ▫You must find the n coefficient of the H2O (xH2O) in the formula. ▫You will use the math we have learned to do this: 5.00 g BaCl2 hydrate – 4.26 g anhydrous BaCL2 = 0.74 g H2O Note: we knew the starting mass, heated off the H2O, and found the difference, which must be the H2O present. 5
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Analyzing a Hydrate How do you find the amount of H 2 O in a hydrate? 5.00 g BaCl2 hydrate – 4.26 g anhydrous BaCL 2 = 0.74 g H 2 O Now lets figure out the moles present – you have to convert the masses to moles using the molar mass: 4.26 g BaCL 2 x 1 mol BaCL 2 = 208.23 g BaCL 2 0.74 g H 2 O x 1 mol H 2 O = 18.02 g H 2 O Do the math and find the answer! 6
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Analyzing a Hydrate How do you find the amount of H 2 O in a hydrate? 5.00 g BaCl2 hydrate – 4.26 g anhydrous BaCL 2 = 0.74 g H 2 O Now lets figure out the moles present – you have to convert the masses to moles using the molar mass: 4.26 g BaCL 2 x 1 mol BaCL 2 = 0.0205 mol BaCL 2 208.23 g BaCL 2 0.74 g H 2 O x 1 mol H 2 O = 0.041 mol H 2 O 18.02 g H 2 O Now calculate the ratio of H 2 O moles to BaCL 2 moles: 7
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Analyzing a Hydrate How do you find the amount of H 2 O in a hydrate? 5.00 g BaCl2 hydrate – 4.26 g anhydrous BaCL 2 = 0.74 g H 2 O Now lets figure out the moles present – you have to convert the masses to moles using the molar mass: 4.26 g BaCL 2 x 1 mol BaCL 2 = 0.0205 mol BaCL 2 208.23 g BaCL 2 0.74 g H 2 O x 1 mol H 2 O = 0.041 mol H 2 O 18.02 g H 2 O Now calculate the ratio of H 2 O moles to BaCL 2 moles: x = moles H 2 O = 0.041 mol H 2 O = 2.00 mol H 2 O = 2:1 ratio moles BaCL 2 0.0205 mol BaCL 2 1.00 mol BaCL 2 8
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Uses of Hydrates Why are hydrates useful? ▫They can absorbed water if in anhydrous form. Used as drying agents ▫Hydrate form can be used to store water. Used in solar panels. 9
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Left Side Practice ▫Old Textbook, pg. 340, practice problems 63 & 64. ▫When complete, get Family Project Document and read through it. 10
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