logging in or signing up Solving Gas Laws wsautter Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 40 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: December 15, 2011 This Presentation is Public Favorites: 0 Presentation Description How to solve chemistry problems using Boyles Law, Charles Law, Gay Lussac's Law, the Combined Gas Law, Avogadro's Hypothesis, and Dalton's Law. **More good stuff available at: www.wsautter.com and http://www.youtube.com/results?search_query=wnsautter &aq=f Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: Solving Gas Law Problems Copyright Sautter 2003PowerPoint Presentation: The next slide is a quick promo for my books after which the presentation will begin Thanks for your patience! Walt S. Wsautter@optonline.net More stuff at: www.wsautter.comPowerPoint Presentation: Books available at: www.wsautter.com www.smashwords.com www.amazon.com www.bibliotastic.com www.goodreads.com Walt’s Books for Free!SOLVING GAS LAW PROBLEMS : SOLVING GAS LAW PROBLEMS BOYLE’S LAW CHARLES LAW GAY-LUSSAC’S LAW THE COMBINED GAS LAW THE IDEAL GAS LAW DALTON’S LAW GRAHAM’S LAW OF DIFFUSIONGAS LAW FORMULAE: GAS LAW FORMULAE BOYLE’S LAW: P 1 x V 1 = P 2 x V 2 CHARLES LAW: V 1 / T 1 = V 2 / T 2 GAY-LUSSAC’S LAW: P 1 / T 1 = P 2 / T 2 KELVIN = 273 + DEGREES CELSIUS COMBINED GAS LAW (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 DALTON’S LAW P TOTAL = P GAS A + P GAS B + P GAS C + P …….GAS LAW FORMULAE (CONT’D): GAS LAW FORMULAE (CONT’D) DALTON’S LAW (CONT’D) P GAS A = (N GAS A / N TOTAL ) x P TOTAL AVOGADRO’S HYPOTHESIS “EQUAL VOLUMES OF DIFFERENT GASES, AT THE SAME TEMPERATURE AND PRESSURE, CONTAIN EQUAL MOLES” UNIVERSAL GAS LAW P x V = N x R x TGAS LAW FORMULAE (CONT’D): GAS LAW FORMULAE (CONT’D) GRAHAM’S LAW OF DIFFUSION v 2 / v 1 = ( m 1 / m 2 ) 1/2 v = average molecular velocity m = molecular mass ONE MOLE OF ANY GAS OCCUPIES 22.4 LITERS AT STP CONDITIONS Liters divide by 22.4 moles Liters multiply by 22.4 molesSOLVING BOYLE’S LAW PROBLEMS: SOLVING BOYLE’S LAW PROBLEMS WHAT IS THE VOLUME OF 500 ML OF NEON GAS AT 2.0 ATMS OF PRESSURE WHEN ITS PRESSURE IS CHANGED TO 2090 MM OF HG ? SOLUTION: P 1 x V 1 = P 2 x V 2 , P 1 = 2.0 ATM V 1 = 500 ML, P 2 = 2090 MM / 760 = 2.75 ATM V 2 = ( P 1 x V 1 ) / P 2 V 2 = (2.0 x 500) / 2.75 = 364 ML NOTE: BOYLE’S LAW IS INVERSE, AS PRESSURE INCREASES, VOLUME DECREASES.SOLVING BOYLE’S LAW PROBLEMS: SOLVING BOYLE’S LAW PROBLEMS IF 6.0 LITERS OF OXYGEN AT 1140 MM OF HG IS REDUCED TO A VOLUME OF 2000 ML, WHAT IS THE NEW PRESSURE OF THE GAS ? SOLUTION: P 1 x V 1 = P 2 x V 2 , P 1 = 1140 MM V 1 = 6.0 L, V 2 = 2000 ML / 1000 = 2.0 L P 2 = ( P 1 x V 1 ) / V 2 P 2 = (1140 x 6.0) / 2.0 = 3420 MM OF HGSOLVING CHARLES LAW PROBLEMS: SOLVING CHARLES LAW PROBLEMS WHAT IS THE VOLUME OF HYDROGEN WHEN 300 ML ARE HEATED FROM 35 CELSIUS TO 80 CELSIUS ? SOLUTION: V 1 / T 1 = V 2 / T 2 , V 1 = 300 ML KELVIN = 273 + DEGREES CELSIUS T 1 = (35 +273) = 308 K, T 2 = (80 + 273) = 353 K V 2 = (V 1 x T 2 ) / T 1 V 2 = (300 x 353) / 308 = 344 mlSOLVING CHARLES LAW PROBLEMS: SOLVING CHARLES LAW PROBLEMS A 500 ml sample of carbon dioxide is reduced to 350 ml by cooling. If the original temperature has 300 K, what is the new temperature in degrees Celsius ? SOLUTION: V 1 / T 1 = V 2 / T 2 , V 1 = 500 ML, V 2 = 350 ML T 1 = 300 K T 2 = (V 2 x T 1 ) / V 1 T 2 = (350 x 300) / 500 = 210 K KELVIN = 273 + DEGREES CELSIUS 210 = 273 + C 0 , C 0 = - 63SOLVING GAY-LUSSAC LAW PROBLEMS: SOLVING GAY-LUSSAC LAW PROBLEMS WHAT IS THE PRESSURE OF A CONFINED GAS WITH AN ORIGINAL PRESSURE OF 3.0 ATM AND A TEMPERATURE OF 200K IF THE TEMPERATURE IS INCREASED TO 1000 C 0 ? SOLUTION: P 1 / T 1 = P 2 / T 2 , P 1 = 3.0 ATM, T 1 = 200 K T 2 = 1000 C 0 KELVIN = 273 + DEGREES CELSIUS K = 273 + 1000 = 1273 K P 2 = (P 1 x T 2 ) / T 1 P 2 = (3.0 x 1273) / 200 = 19.1 ATMSOLVING GAY-LUSSAC LAW PROBLEMS: SOLVING GAY-LUSSAC LAW PROBLEMS A SAMPLE OF CHLORINE IS RAISED TO 1140 MM OF HG FROM A PRESSURE OF 0.50 ATM. IF THE ORIGINAL TEMPERATURE WAS 500 K, WHAT IS THE NEW TEMPERATURE IN CELSIUS ? SOLUTION: P 1 / T 1 = P 2 / T 2 , P 1 = 0.50 ATM, P 2 = 1140 / 760 = 1.5 ATM T 1 = 500 K T 2 = (P 2 x T 1 ) / P 1 T 2 = (1.5 x 500) / 0.50 = 1500 K KELVIN = 273 + DEGREES CELSIUS 1500 = 273 + C 0 , C 0 = 1227SOLVING COMBINED LAW PROBLEMS: SOLVING COMBINED LAW PROBLEMS WHAT IS THE NEW VOLUME OF 650 ML OF NITROGEN AT 273 K AND 2.0 ATMS WHEN IT IS HEATED TO 819 K AND REDUCED TO 1.0 ATM PRESSURE ? SOLUTION: (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 , P 1 = 2.0 ATM, P 2 = 1.0 ATM T 1 = 273 K, T 2 = 819 K V 1 = 650 ml V 2 = (P 1 x V 1 x T 2 ) / (P 2 x T 1 ) V 2 = (2.0 x 650 x 819) / (1.0 x 273) = 3900 mlSOLVING COMBINED LAW PROBLEMS: SOLVING COMBINED LAW PROBLEMS WHAT IS THE NEW PRESSURE OF 850 ML OF ARGON AT 1092 K AND 5.0 ATMS WHEN IT IS COOLED TO 273 C AND REDUCED TO A VOLUME OF 300 ML ? SOLUTION: (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 , P 1 = 5.0 ATM, V 2 = 300 ML T 1 = 1092 K, V 1 = 850 ML T 2 = (273 + 273) = 546 K P 2 = (P 1 x V 1 x T 2 ) / (V 2 x T 1 ) P 2 = (5.0 x 850 x 546) / (300 x 1092) = 7.1 ATMSOLVING DALTON’S LAW PROBLEMS: SOLVING DALTON’S LAW PROBLEMS A TANK CONTAINS THREE GASES, N 2 , Cl 2 AND O 2 . THE NITROGEN PRESSURE IS 2.0 ATM, THE CHLORINE 380 MM OF HG AND THE OXYGEN 5.0 ATM. WHAT IS THE PRESSURE IN THE TANK ? P TOTAL = P GAS A + P GAS B + P GAS C + P ……. P TOTAL = 2.0 ATM + (380/760)ATM + 5.0 ATM = 7.5 ATM OR 7.5 x 760 = 5700 MM OF HGSOLVING DALTON’S LAW PROBLEMS: SOLVING DALTON’S LAW PROBLEMS A TANK CONTAINS THREE GASES, H 2 , Br 2 AND O 2 . THE MASS OF HYDROGEN IS 2.0 GRAMS, THE BROMINE MASS IS 240 GRAMS AND THE OXYGEN MASS IS 16.0 GRAMS. THE TOTAL PRESSURE IN THE TANK WAS 4.0 ATM. WHAT IS THE PRESSURE OF THE OXYGEN IN THE TANK ? SOLUTION: P GAS A = (N GAS A / N TOTAL ) x P TOTAL MOLES = GRAMS / MOLAR MASS H 2 = 2.0 / 2.0 = 1.0 MOLES, Br 2 = 240 / 160 =1.5 MOLES O 2 = 16.0 / 32 = 0.50 MOLES P O2 = ( (0.50) / (1.0 + 1.5 + 0.50)) x 4.0 = 0.67 ATMSOLVING IDEAL GAS LAW PROBLEMS: SOLVING IDEAL GAS LAW PROBLEMS WHAT IS THE TEMPERATURE OF 68.0 GRAMS OF OF HYDROGEN SULFIDE GAS WITH A VOLUME OF 6.0 LITERS AND A PRESSURE OF 5.0 ATMS ? SOLUTION: P x V = N x R x T, P = 5.0 ATM, V = 6.0 LITERS N = 68.0 / 34.0 = 2.0 MOLES R = 0.0821 ATM x L / MOLES x K T = (P x V) / (N x R) T = (5.0 x 6.0) / (2.0 x 0.0821) = 183 K KELVIN = 273 + DEGREES CELSIUS 183 = 273 + C 0 , C 0 = -90SOLVING IDEAL GAS LAW PROBLEMS: SOLVING IDEAL GAS LAW PROBLEMS WHAT IS THE VOLUME OF 64.0 GRAMS OF OF OXYGEN GAS WITH A TEMPERATURE OF 25 DEGREES CELSIUS AND A PRESSURE OF 3.0 ATMS ? SOLUTION: P x V = N x R x T, KELVIN = 273 + DEGREES T= 25 + 273 = 298 K, P = 3.0 ATM N = 64.0 / 32.0 = 2.0 MOLES R = 0.0821 ATM x L / MOLES x K V = (N x R x T) / P V = (2.0 x 0.0821 x 298) / 3.0 183 = 273 + C 0 , C 0 = -90SOLVING GRAHAM’S LAW PROBLEMS: SOLVING GRAHAM’S LAW PROBLEMS THE AVERAGE MOLECULAR SPEED OF AN OXYGEN MOLECULE AT A SPECIFIC TEMPERATURE IS 500 M/SEC. WHAT IS THE AVERAGE SPEED OF A NEON MOLECULE AT THE SAME TEMPERATURE ? v 2 / v 1 = ( m 1 / m 2 ) 1/2 MOLAR MASS OXYGEN = 32.0, MOLAR MASS NEON = 20.0 m 1 = 32, m 2 = 20.0, v 1 = 500 M / SEC v 2 = ( m 1 / m 2 ) 1/2 (v 1 ) = (32.0/ 20.0) 1/2 (500) =632 M/SECSOLVING GRAHAM’S LAW PROBLEMS: SOLVING GRAHAM’S LAW PROBLEMS WHAT IS MOLECULAR MASS OF SUBSTANCE X, IF AT A SPECIFIC TEMPERATURE THE SPEED OF A NITROGEN MOLECULE IS 800 M/SEC. THE AVERAGE SPEED OF THE UNKNOWN GAS IS 650 M/SEC AT THE SAME TEMPERATURE ? v 2 / v 1 = ( m 1 / m 2 ) 1/2 (squaring both sides gives) m 1 / m 2 = v 2 2 / v 1 2 ( solving for m 1 gives) m 1 = (v 2 2 / v 1 2 ) x m 2 m 2 = Molar mass of Nitrogen = 28.0 v 2 = velocity of Nitrogen = 800 m / s v 1 = velocity of unknown gas = 650 m /s m 1 = (800 2 / 650 2 ) x 28 = 42.4SOLVING STP PROBLEMS: SOLVING STP PROBLEMS ONE MOLE OF ANY GAS AT STP ( 0 C OR 273 K AND 1 ATM OR 760 MM OF HG) OCCUPIES 22.4 LITERS HOW MANY GRAMS OF HYDROGEN ARE CONTAINED IN 89.6 LITERS AT STP ? SOLUTION : Liters divide by 22.4 moles 89.6 / 22.4 = 4.0 MOLES MOLES x MOLAR MASS = GRAMS 4.0 x 2.0 = 8.0 GRAMS HYDROGENSOLVING STP PROBLEMS: SOLVING STP PROBLEMS MOLE OF ANY GAS AT STP ( 0 C OR 273 K AND 1 ATM OR 760 MM OF HG) OCCUPIES 22.4 LITERS WHAT IS THE VOLUME OF 96.0 GRAMS OF SULFUR DIOXIDE AT STP ? SOLUTION : GRAMS / MOLAR MASS = MOLES 96.0 / 64.0 = 1.5 MOLES MOLES X 22.4 LITER s 1.5 x 22.4 = 33.6 LITERSPowerPoint Presentation: THE END You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Solving Gas Laws wsautter Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 40 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: December 15, 2011 This Presentation is Public Favorites: 0 Presentation Description How to solve chemistry problems using Boyles Law, Charles Law, Gay Lussac's Law, the Combined Gas Law, Avogadro's Hypothesis, and Dalton's Law. **More good stuff available at: www.wsautter.com and http://www.youtube.com/results?search_query=wnsautter &aq=f Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: Solving Gas Law Problems Copyright Sautter 2003PowerPoint Presentation: The next slide is a quick promo for my books after which the presentation will begin Thanks for your patience! Walt S. Wsautter@optonline.net More stuff at: www.wsautter.comPowerPoint Presentation: Books available at: www.wsautter.com www.smashwords.com www.amazon.com www.bibliotastic.com www.goodreads.com Walt’s Books for Free!SOLVING GAS LAW PROBLEMS : SOLVING GAS LAW PROBLEMS BOYLE’S LAW CHARLES LAW GAY-LUSSAC’S LAW THE COMBINED GAS LAW THE IDEAL GAS LAW DALTON’S LAW GRAHAM’S LAW OF DIFFUSIONGAS LAW FORMULAE: GAS LAW FORMULAE BOYLE’S LAW: P 1 x V 1 = P 2 x V 2 CHARLES LAW: V 1 / T 1 = V 2 / T 2 GAY-LUSSAC’S LAW: P 1 / T 1 = P 2 / T 2 KELVIN = 273 + DEGREES CELSIUS COMBINED GAS LAW (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 DALTON’S LAW P TOTAL = P GAS A + P GAS B + P GAS C + P …….GAS LAW FORMULAE (CONT’D): GAS LAW FORMULAE (CONT’D) DALTON’S LAW (CONT’D) P GAS A = (N GAS A / N TOTAL ) x P TOTAL AVOGADRO’S HYPOTHESIS “EQUAL VOLUMES OF DIFFERENT GASES, AT THE SAME TEMPERATURE AND PRESSURE, CONTAIN EQUAL MOLES” UNIVERSAL GAS LAW P x V = N x R x TGAS LAW FORMULAE (CONT’D): GAS LAW FORMULAE (CONT’D) GRAHAM’S LAW OF DIFFUSION v 2 / v 1 = ( m 1 / m 2 ) 1/2 v = average molecular velocity m = molecular mass ONE MOLE OF ANY GAS OCCUPIES 22.4 LITERS AT STP CONDITIONS Liters divide by 22.4 moles Liters multiply by 22.4 molesSOLVING BOYLE’S LAW PROBLEMS: SOLVING BOYLE’S LAW PROBLEMS WHAT IS THE VOLUME OF 500 ML OF NEON GAS AT 2.0 ATMS OF PRESSURE WHEN ITS PRESSURE IS CHANGED TO 2090 MM OF HG ? SOLUTION: P 1 x V 1 = P 2 x V 2 , P 1 = 2.0 ATM V 1 = 500 ML, P 2 = 2090 MM / 760 = 2.75 ATM V 2 = ( P 1 x V 1 ) / P 2 V 2 = (2.0 x 500) / 2.75 = 364 ML NOTE: BOYLE’S LAW IS INVERSE, AS PRESSURE INCREASES, VOLUME DECREASES.SOLVING BOYLE’S LAW PROBLEMS: SOLVING BOYLE’S LAW PROBLEMS IF 6.0 LITERS OF OXYGEN AT 1140 MM OF HG IS REDUCED TO A VOLUME OF 2000 ML, WHAT IS THE NEW PRESSURE OF THE GAS ? SOLUTION: P 1 x V 1 = P 2 x V 2 , P 1 = 1140 MM V 1 = 6.0 L, V 2 = 2000 ML / 1000 = 2.0 L P 2 = ( P 1 x V 1 ) / V 2 P 2 = (1140 x 6.0) / 2.0 = 3420 MM OF HGSOLVING CHARLES LAW PROBLEMS: SOLVING CHARLES LAW PROBLEMS WHAT IS THE VOLUME OF HYDROGEN WHEN 300 ML ARE HEATED FROM 35 CELSIUS TO 80 CELSIUS ? SOLUTION: V 1 / T 1 = V 2 / T 2 , V 1 = 300 ML KELVIN = 273 + DEGREES CELSIUS T 1 = (35 +273) = 308 K, T 2 = (80 + 273) = 353 K V 2 = (V 1 x T 2 ) / T 1 V 2 = (300 x 353) / 308 = 344 mlSOLVING CHARLES LAW PROBLEMS: SOLVING CHARLES LAW PROBLEMS A 500 ml sample of carbon dioxide is reduced to 350 ml by cooling. If the original temperature has 300 K, what is the new temperature in degrees Celsius ? SOLUTION: V 1 / T 1 = V 2 / T 2 , V 1 = 500 ML, V 2 = 350 ML T 1 = 300 K T 2 = (V 2 x T 1 ) / V 1 T 2 = (350 x 300) / 500 = 210 K KELVIN = 273 + DEGREES CELSIUS 210 = 273 + C 0 , C 0 = - 63SOLVING GAY-LUSSAC LAW PROBLEMS: SOLVING GAY-LUSSAC LAW PROBLEMS WHAT IS THE PRESSURE OF A CONFINED GAS WITH AN ORIGINAL PRESSURE OF 3.0 ATM AND A TEMPERATURE OF 200K IF THE TEMPERATURE IS INCREASED TO 1000 C 0 ? SOLUTION: P 1 / T 1 = P 2 / T 2 , P 1 = 3.0 ATM, T 1 = 200 K T 2 = 1000 C 0 KELVIN = 273 + DEGREES CELSIUS K = 273 + 1000 = 1273 K P 2 = (P 1 x T 2 ) / T 1 P 2 = (3.0 x 1273) / 200 = 19.1 ATMSOLVING GAY-LUSSAC LAW PROBLEMS: SOLVING GAY-LUSSAC LAW PROBLEMS A SAMPLE OF CHLORINE IS RAISED TO 1140 MM OF HG FROM A PRESSURE OF 0.50 ATM. IF THE ORIGINAL TEMPERATURE WAS 500 K, WHAT IS THE NEW TEMPERATURE IN CELSIUS ? SOLUTION: P 1 / T 1 = P 2 / T 2 , P 1 = 0.50 ATM, P 2 = 1140 / 760 = 1.5 ATM T 1 = 500 K T 2 = (P 2 x T 1 ) / P 1 T 2 = (1.5 x 500) / 0.50 = 1500 K KELVIN = 273 + DEGREES CELSIUS 1500 = 273 + C 0 , C 0 = 1227SOLVING COMBINED LAW PROBLEMS: SOLVING COMBINED LAW PROBLEMS WHAT IS THE NEW VOLUME OF 650 ML OF NITROGEN AT 273 K AND 2.0 ATMS WHEN IT IS HEATED TO 819 K AND REDUCED TO 1.0 ATM PRESSURE ? SOLUTION: (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 , P 1 = 2.0 ATM, P 2 = 1.0 ATM T 1 = 273 K, T 2 = 819 K V 1 = 650 ml V 2 = (P 1 x V 1 x T 2 ) / (P 2 x T 1 ) V 2 = (2.0 x 650 x 819) / (1.0 x 273) = 3900 mlSOLVING COMBINED LAW PROBLEMS: SOLVING COMBINED LAW PROBLEMS WHAT IS THE NEW PRESSURE OF 850 ML OF ARGON AT 1092 K AND 5.0 ATMS WHEN IT IS COOLED TO 273 C AND REDUCED TO A VOLUME OF 300 ML ? SOLUTION: (P 1 x V 1 ) / T 1 = (P 2 x V 2 ) / T 2 , P 1 = 5.0 ATM, V 2 = 300 ML T 1 = 1092 K, V 1 = 850 ML T 2 = (273 + 273) = 546 K P 2 = (P 1 x V 1 x T 2 ) / (V 2 x T 1 ) P 2 = (5.0 x 850 x 546) / (300 x 1092) = 7.1 ATMSOLVING DALTON’S LAW PROBLEMS: SOLVING DALTON’S LAW PROBLEMS A TANK CONTAINS THREE GASES, N 2 , Cl 2 AND O 2 . THE NITROGEN PRESSURE IS 2.0 ATM, THE CHLORINE 380 MM OF HG AND THE OXYGEN 5.0 ATM. WHAT IS THE PRESSURE IN THE TANK ? P TOTAL = P GAS A + P GAS B + P GAS C + P ……. P TOTAL = 2.0 ATM + (380/760)ATM + 5.0 ATM = 7.5 ATM OR 7.5 x 760 = 5700 MM OF HGSOLVING DALTON’S LAW PROBLEMS: SOLVING DALTON’S LAW PROBLEMS A TANK CONTAINS THREE GASES, H 2 , Br 2 AND O 2 . THE MASS OF HYDROGEN IS 2.0 GRAMS, THE BROMINE MASS IS 240 GRAMS AND THE OXYGEN MASS IS 16.0 GRAMS. THE TOTAL PRESSURE IN THE TANK WAS 4.0 ATM. WHAT IS THE PRESSURE OF THE OXYGEN IN THE TANK ? SOLUTION: P GAS A = (N GAS A / N TOTAL ) x P TOTAL MOLES = GRAMS / MOLAR MASS H 2 = 2.0 / 2.0 = 1.0 MOLES, Br 2 = 240 / 160 =1.5 MOLES O 2 = 16.0 / 32 = 0.50 MOLES P O2 = ( (0.50) / (1.0 + 1.5 + 0.50)) x 4.0 = 0.67 ATMSOLVING IDEAL GAS LAW PROBLEMS: SOLVING IDEAL GAS LAW PROBLEMS WHAT IS THE TEMPERATURE OF 68.0 GRAMS OF OF HYDROGEN SULFIDE GAS WITH A VOLUME OF 6.0 LITERS AND A PRESSURE OF 5.0 ATMS ? SOLUTION: P x V = N x R x T, P = 5.0 ATM, V = 6.0 LITERS N = 68.0 / 34.0 = 2.0 MOLES R = 0.0821 ATM x L / MOLES x K T = (P x V) / (N x R) T = (5.0 x 6.0) / (2.0 x 0.0821) = 183 K KELVIN = 273 + DEGREES CELSIUS 183 = 273 + C 0 , C 0 = -90SOLVING IDEAL GAS LAW PROBLEMS: SOLVING IDEAL GAS LAW PROBLEMS WHAT IS THE VOLUME OF 64.0 GRAMS OF OF OXYGEN GAS WITH A TEMPERATURE OF 25 DEGREES CELSIUS AND A PRESSURE OF 3.0 ATMS ? SOLUTION: P x V = N x R x T, KELVIN = 273 + DEGREES T= 25 + 273 = 298 K, P = 3.0 ATM N = 64.0 / 32.0 = 2.0 MOLES R = 0.0821 ATM x L / MOLES x K V = (N x R x T) / P V = (2.0 x 0.0821 x 298) / 3.0 183 = 273 + C 0 , C 0 = -90SOLVING GRAHAM’S LAW PROBLEMS: SOLVING GRAHAM’S LAW PROBLEMS THE AVERAGE MOLECULAR SPEED OF AN OXYGEN MOLECULE AT A SPECIFIC TEMPERATURE IS 500 M/SEC. WHAT IS THE AVERAGE SPEED OF A NEON MOLECULE AT THE SAME TEMPERATURE ? v 2 / v 1 = ( m 1 / m 2 ) 1/2 MOLAR MASS OXYGEN = 32.0, MOLAR MASS NEON = 20.0 m 1 = 32, m 2 = 20.0, v 1 = 500 M / SEC v 2 = ( m 1 / m 2 ) 1/2 (v 1 ) = (32.0/ 20.0) 1/2 (500) =632 M/SECSOLVING GRAHAM’S LAW PROBLEMS: SOLVING GRAHAM’S LAW PROBLEMS WHAT IS MOLECULAR MASS OF SUBSTANCE X, IF AT A SPECIFIC TEMPERATURE THE SPEED OF A NITROGEN MOLECULE IS 800 M/SEC. THE AVERAGE SPEED OF THE UNKNOWN GAS IS 650 M/SEC AT THE SAME TEMPERATURE ? v 2 / v 1 = ( m 1 / m 2 ) 1/2 (squaring both sides gives) m 1 / m 2 = v 2 2 / v 1 2 ( solving for m 1 gives) m 1 = (v 2 2 / v 1 2 ) x m 2 m 2 = Molar mass of Nitrogen = 28.0 v 2 = velocity of Nitrogen = 800 m / s v 1 = velocity of unknown gas = 650 m /s m 1 = (800 2 / 650 2 ) x 28 = 42.4SOLVING STP PROBLEMS: SOLVING STP PROBLEMS ONE MOLE OF ANY GAS AT STP ( 0 C OR 273 K AND 1 ATM OR 760 MM OF HG) OCCUPIES 22.4 LITERS HOW MANY GRAMS OF HYDROGEN ARE CONTAINED IN 89.6 LITERS AT STP ? SOLUTION : Liters divide by 22.4 moles 89.6 / 22.4 = 4.0 MOLES MOLES x MOLAR MASS = GRAMS 4.0 x 2.0 = 8.0 GRAMS HYDROGENSOLVING STP PROBLEMS: SOLVING STP PROBLEMS MOLE OF ANY GAS AT STP ( 0 C OR 273 K AND 1 ATM OR 760 MM OF HG) OCCUPIES 22.4 LITERS WHAT IS THE VOLUME OF 96.0 GRAMS OF SULFUR DIOXIDE AT STP ? SOLUTION : GRAMS / MOLAR MASS = MOLES 96.0 / 64.0 = 1.5 MOLES MOLES X 22.4 LITER s 1.5 x 22.4 = 33.6 LITERSPowerPoint Presentation: THE END