01_InstSolManual_PDF_Part2

01_InstSolManual_PDF_Part2 - / cm 3 2 1 1.00 kg 1000 g 21...

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1.3. Set Up: We know the equalities: and Solve: (a) (b) (c) The mass of each tablet is The number of tablets required each day is the number of grams recommended per day divided by the number of grams per tablet: Take 2 tablets each day. (d) 1.4. Set Up: In part (a), we need to solve an equation of the form where x is a series of conversion equalities and y is the unknown number of kilometers. For part (b), we must prove using the equalities and Part (c) requires the application of the equality Solve: (a) (b) (c) 1.5. Set Up: We need to apply the following conversion equalities: and Solve: (a) (b) (c) Reflect: We could express the density of water as 1.6. Set Up: We know that and that mph means miles per hour. Solve: (a) (b) 1 65 mph 2 1 1 km 0.6214 mi 2 5 105 km / h 1 150 km / h 2 1 0.6214 mi 1 km 2 5 93 mi / h 5 93 mph 1 km 5 0.6214 mi 1.00 kg / L. 1 1.00 kg 2 1 2.205 lb 1.00 kg 2 5 2.20 lb 1 1.00 L 2 1 1000 cm 3 1.00 L 21 1.00 g 1.00 cm 3 21 1.00 kg 1000 g 2 5 1.00 kg; 1 1050 kg / m 3 2 1 1000 g 1.00 kg 21 1.00 m 1000 cm 2 3 5 1.05 g / cm 3 1 1.00 g
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Unformatted text preview: / cm 3 2 1 1.00 kg 1000 g 21 100 cm 1.00 m 2 3 5 1000 kg / m 3 1.00 L 5 1000 cm 3 . 100 cm 5 1.00 m, 1000 g 5 1.00 kg, 1 1.00 L 2 1 10 3 mL 1.00 L 21 1.00 cm 3 1.00 mL 2 5 1000 cm 3 1 1.00 mL 2 1 1.00 L 10 3 mL 21 1000 cm 3 1.00 L 2 5 1.00 cm 3 y 5 1.61 km S1 2.54 cm 1.00 in. 21 12.0 in. 1.00 ft 21 5280 ft 1.00 mi 2T 1 1.00 mi 2 S1 1.00 m 100 cm 21 1.00 km 10 3 m 2T 5 y ; 1 mL 5 1 cm 3 . 10 3 mL 5 1 L. 1 L 5 1000 cm 3 1.00 cm 3 1 1.00 mL 2 x 5 1 2.54 cm 1.00 in. 2 x 1 1.0 mi 2 5 y , 1 0.000070 g / day 2 1 1 mg 10 2 3 g 2 5 0.070 mg / day 0.0030 g / day 2.0 3 10 2 3 g / tablet 5 1.5 tablet / day. 1 2.0 mg 2 1 10 2 3 g 1 mg 2 5 2.0 3 10 2 3 g. 1 12 mg / kg 21 75 kg 2 5 1 900 mg 2 1 10 2 3 g 1 mg 2 5 0.900 g 1 410 mg / day 2 1 10 2 3 g 1 mg 21 1 m g 10 2 6 g 2 5 4.10 3 10 5 m g / day 1 kg 5 10 3 g. 1 m g 5 10 2 6 g 1 mg 5 10 2 3 g, 1-2 Chapter 1...
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This note was uploaded on 03/06/2009 for the course PHYS 114 taught by Professor Shoberg during the Spring '07 term at Pittsburg State Uiversity.

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