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A 19.3 g sample of beryllium at 96.7°C is placed into 46.2 mL of water at 20.2°C in an insulated container. The temperature of the water at thermal equilibrium is 32.0°C. What is the specific heat of beryllium? Assume a density of 1.00 g/mL for water. (See this table.)   J/(g·°C)

A 19.3 g sample of beryllium at 96.7°C is placed into 46.2 mL of water at 20.2°C in an insulated container. The temperature of the water at thermal equilibrium is 32.0°C. What is the specific heat of beryllium? Assume a density of 1.00 g/mL for water. (See this table.)   J/(g·°C)

Chemistry: Principles and Reactions
Chemistry: Principles and Reactions
8th Edition
ISBN:9781305079373
Author:William L. Masterton, Cecile N. Hurley
Publisher:William L. Masterton, Cecile N. Hurley
Chapter5: Gases
Section: Chapter Questions
Problem 29QAP: A 1.58-g sample of C2H3X3(g) has a volume of 297 mL at 769 mm Hg and 35C. Identify the element X.
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A 19.3 g sample of beryllium at 96.7°C is placed into 46.2 mL of water at 20.2°C in an insulated container. The temperature of the water at thermal equilibrium is 32.0°C. What is the specific heat of beryllium? Assume a density of 1.00 g/mL for water. (See this table.)
  J/(g·°C)

 

1 1 1 1 1 Å 1 1 1 1 mile = 5280 inch = 2.54 = 1.609 1 mile 1 1 1 lb 1 kg cal Cal 1 N eV 1 J eV TI Pa e L'atm = 101.3 = 453.6 1 atm 1 atm 1 atm 1 D 1 Ci atm = 14.7 atm = 760 = 760 1 yr = 1x10-10 = 4.184 = 1000 ܠܟ ܠ = = 2.205 1 Gy 1 Gy = 100 1 R = 2.58×10-4 = 365 cal = 1.602×10-19 J 96.485 1.01325 3.7×1010 feet cm km OLOTUROOEL 3 J kJ/mol J g lbs kg-m/s² bar 1.01325×105 Pa 3.34×10-30 C-m N.m N/m² psí mmHg torr Mathematical Constants (infinite precision) 3.14159265359 = 2.71828182846 T S1 J/kg rad c/kg ď*
Transcribed Image Text:1 1 1 1 1 Å 1 1 1 1 mile = 5280 inch = 2.54 = 1.609 1 mile 1 1 1 lb 1 kg cal Cal 1 N eV 1 J eV TI Pa e L'atm = 101.3 = 453.6 1 atm 1 atm 1 atm 1 D 1 Ci atm = 14.7 atm = 760 = 760 1 yr = 1x10-10 = 4.184 = 1000 ܠܟ ܠ = = 2.205 1 Gy 1 Gy = 100 1 R = 2.58×10-4 = 365 cal = 1.602×10-19 J 96.485 1.01325 3.7×1010 feet cm km OLOTUROOEL 3 J kJ/mol J g lbs kg-m/s² bar 1.01325×105 Pa 3.34×10-30 C-m N.m N/m² psí mmHg torr Mathematical Constants (infinite precision) 3.14159265359 = 2.71828182846 T S1 J/kg rad c/kg ď*
Constant Value nAv R R R Vm Vm с g h ao k с F R RH amu mass e, e* Kw Usage Avogadro's number L'atm/K-mol ideal gas constant J/K.mol ideal cal/K.mol L/mol 24.465 L/mol 2.9979×108 m/s m/s² 6.6261x10-34 m²/kg.s 5.2918x10-11 1.3807x10-23 J/K 6.2415x1018 96485 1.097x107 m-1 2.18x10-18 J 1.6605x10-27 kg 9.1094*10-31 kg 1.6726x10-27 kg 1.6749x10-27 kg 1.6022×10-19 C Ka,H2O 6.0221×1023 particles 0.08206 8.3145 1.9872 mass sp+ mass no charge e energy En 931.5 Nernst factor 0.0592 1.0x10-14 22.414 = 12 9.81 Units 1.8×10-16 m e C/mol MeV Unit Conversion Factors (by definition) 0 °C = 273.15 K 1 foot inches gas constant ideal gas constant ideal gas law @ 0°C ideal gas law @ 25°C speed of light standard gravity Planck's constant Bohr radíus Boltzmann's constant Coulomb's Law Faraday's constant Rydberg constant Rydberg constant of hydrogen atomic mass unit elementary particle elementary particle elementary particle elementary particle elementary particle Nernst equation autoionization constant of water acidity constant of water
Transcribed Image Text:Constant Value nAv R R R Vm Vm с g h ao k с F R RH amu mass e, e* Kw Usage Avogadro's number L'atm/K-mol ideal gas constant J/K.mol ideal cal/K.mol L/mol 24.465 L/mol 2.9979×108 m/s m/s² 6.6261x10-34 m²/kg.s 5.2918x10-11 1.3807x10-23 J/K 6.2415x1018 96485 1.097x107 m-1 2.18x10-18 J 1.6605x10-27 kg 9.1094*10-31 kg 1.6726x10-27 kg 1.6749x10-27 kg 1.6022×10-19 C Ka,H2O 6.0221×1023 particles 0.08206 8.3145 1.9872 mass sp+ mass no charge e energy En 931.5 Nernst factor 0.0592 1.0x10-14 22.414 = 12 9.81 Units 1.8×10-16 m e C/mol MeV Unit Conversion Factors (by definition) 0 °C = 273.15 K 1 foot inches gas constant ideal gas constant ideal gas law @ 0°C ideal gas law @ 25°C speed of light standard gravity Planck's constant Bohr radíus Boltzmann's constant Coulomb's Law Faraday's constant Rydberg constant Rydberg constant of hydrogen atomic mass unit elementary particle elementary particle elementary particle elementary particle elementary particle Nernst equation autoionization constant of water acidity constant of water
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