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BellringerBellringer b An average human heart beats 60 times per minute. If the average person lives to the age of 75, how many times does the average heart beat? b A certain laser printer can print 12 pages per minute. Determine this printer’s output in pages per day, and reams per month. (1 ream = 5000 pages)
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I. Physical Properties Ch. 12 - Gases
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A. Ideal Gas vs. Real Gas b Kinetic Molecular Theory (KMT) The theory that explains the behavior of gases at the molecular level. This theory makes some assumptions about a theoretical gas called an ideal gas.
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A. Ideal Gas vs. Real Gas
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Gas behavior is most ideal… at low pressures at high temperatures in nonpolar atoms/molecules (see picture)
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B. Characteristics of Gases 1. Gases expand to fill any container. 2. Gases are fluids (like liquids). 3. Gases can be compressed. 4. Gases exert pressure. 5. Gases undergo diffusion & effusion.
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B. Characteristics of Gases b Diffusion Spreading of gas molecules throughout a container until evenly distributed. b Effusion Passing of gas molecules through a tiny opening in a container.
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C. Temperature ºC K -2730100 0273373 b Always use absolute temperature (Kelvin) when working with gases. Gases have an avg. KE directly related to Kelvin temperature. If temp. goes up, KE goes up.
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D. Pressure Which shoes create the most pressure? SI unit for pressure is the Pascal: 1 Pa =Newton(N)/m 2
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D. Pressure b Barometer: Measures atmospheric pressure b The pressure of the atmosphere at sea level will hold a column of mercury 760 mm Hg. b Meridan, ID: pressure = 745 mm Hg 1 atm Pressure 760 mm Hg Vacuum
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D. Pressure b KEY UNITS AT SEA LEVEL 101.325 kPa (kilopascal) 1 atm (atmosphere) 760 mm Hg 760 torr 14.7 psi 29.94 in Hg
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D. Pressure 1. The column of mercury in a barometer is 745 mm high. What is the atmospheric pressure in kPa? 745 mm Hg 101.325 kPa 760 mm Hg = 99.3 kPa
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E. STP Standard Temperature & Pressure 0°C 273 K 1 atm Or101.325 kPa Or … Or STP
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Describe the behavior of gases in regards to Pressure, Volume, & Temperature F. The Gas Laws:
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Boyle’s Law b The pressure and volume of a gas are inversely related at constant mass & temp P V PV = k
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V T Charles’ Law Charles’ Law b The volume and absolute temperature (K) of a gas are directly related at constant mass & pressure
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P T Gay-Lussac’s Law b The pressure and absolute temperature (K) of a gas are directly related at constant mass & volume
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V n Avogadro’s Law Avogadro’s Law b Equal volumes of gases contain equal numbers of moles (n) at constant temp & pressure true for any gas
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Combined Gas Law P1V1n1T1P1V1n1T1 = P2V2n2T2P2V2n2T2 P 1 V 1 = P 2 V 2 What other equations?
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GIVEN: V 1 = 473 cm 3 T 1 = 36°C = 309K V 2 = ? T 2 = 94°C = 367K WORK: V 1 / T 1 = V 2 / T 2 G. Gas Law Problems b A gas occupies 473 cm 3 at 36°C. Find its volume at 94°C. CHARLES’ LAW TT VV 473 cm 3 )/(309 K)=V 2 /(367 K) V 2 = 562 cm 3
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GIVEN: V 1 = 100. mL P 1 = 150. kPa V 2 = ? P 2 = 1.50 x10 3 mmHg = 200. kPa WORK: P 1 V 1 = P 2 V 2 G. Gas Law Problems b A gas occupies 100. mL at 150. kPa. Find its volume at 1.50 x10 3 mm Hg. BOYLE’S LAW PP VV (150.kPa)(100.mL)=(200.kPa)V 2 V 2 = 75.0 mL
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GIVEN: V 1 = 7.84 cm 3 P 1 = 71.8 kPa T 1 = 25°C = 298 K V2 = ?V2 = ? P 2 = 101.325 kPa T 2 = 273 K WORK: P 1 V 1 = P 2 V 2 (71.8 kPa)(7.84 cm 3 )/(298 K) =(101.325 kPa) V 2 /(273 K) V 2 = 5.09 cm 3 G. Gas Law Problems b A gas occupies 7.84 cm 3 at 71.8 kPa & 25°C. Find its volume at STP. P T VV COMBINED GAS LAW T 1 T 2
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GIVEN: P 1 = 2.25 atm T 1 = 20°C = 293K P 2 = ? T 2 = 45°C = 318K WORK: P 1 /T 1 = P 2 /T 2 E. Gas Law Problems b On a spring morning, 20°C, you fill your tires to a pressure of 2.25 atm. As you ride along, the tire heats up to 45°C from the friction on the road. What is the pressure in the tires now in units of psi? GAY-LUSSAC’S LAW PP TT (2.25 atm)/(293 K) = ( ?)/ (318 K) P 2 = 2.44 atm = 35.9 psi
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F. Dalton’s Law b The total pressure of a mixture of gases equals the sum of the partial pressures of the individual gases. P total = P 1 + P 2 +... When a H 2 gas is collected by water displacement, the gas in the collection bottle is actually a mixture of H 2 and water vapor.
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F. Dalton’s Law & Water Displacement P total = P gas + P water vapor Measured at several temps. (see chart)
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GIVEN: P gas = ? P total = 742.0 mm Hg P H2O = 42.18 mm Hg WORK: P total = P gas + P H2O 742.0 mm = P gas +42.18 mm P gas = 699.8 mm Hg b A gas is collected over water at a temp of 35.0°C when the barometric pressure is 742.0 mm Hg. What is the partial pressure of the dry gas? Look up water-vapor pressure on the chart for 35.0°C. Sig Figs: Round to least number of decimal places. F. Dalton’s Law The total pressure in the collection bottle is equal to barometric pressure and is a mixture of the “gas” and water vapor.
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GIVEN: P H2 = ? P total = 94.4 kPa P H2O = 19.827 mmHg WORK: P total = P H2 + P H2O 94.4 kPa = P H2 + 2.64 kPa P H2 = 91.8 kPa F. Dalton’s Law b Hydrogen gas is collected over water at 22°C. Find the pressure of the dry gas if the atmospheric pressure is 94.4 kPa. Look up water-vapor pressure and convert for 22°C. Sig Figs: Round to least number of decimal places. The total pressure in the collection bottle is equal to atmospheric pressure and is a mixture of H 2 and water vapor.
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