The salt cobalt(II) sulfate dissolves in water according to the reaction: CoSO4(s)-Co2+ (aq) + SO42(aq) (a) Calculate the standard enthalpy change AH for this reaction, using the following data: AH COSO4(s). --888.3 k) mol AH? Co²+ (aq) = -58.2 kJ mol-1 AH2SO2(aq) = -909.3 kJ mol¹ (b) Calculate the temperature reached by the solution formed when 8.84 g of COSO, is dissolved in 0.101 L of water at 24.8 °C... Approximate the heat capacity of the solution by the heat capacity of 101 g of pure water (specific heat capacity = 4.18 1g¹¹ C¹), ignoring the mass of the salt. °℃ (c) Heats of reaction find practical application in hot packs or cold packs. Would this dissolution reaction be appropriate for the preparation of a hot pack or a cold pack?
The salt cobalt(II) sulfate dissolves in water according to the reaction: CoSO4(s)-Co2+ (aq) + SO42(aq) (a) Calculate the standard enthalpy change AH for this reaction, using the following data: AH COSO4(s). --888.3 k) mol AH? Co²+ (aq) = -58.2 kJ mol-1 AH2SO2(aq) = -909.3 kJ mol¹ (b) Calculate the temperature reached by the solution formed when 8.84 g of COSO, is dissolved in 0.101 L of water at 24.8 °C... Approximate the heat capacity of the solution by the heat capacity of 101 g of pure water (specific heat capacity = 4.18 1g¹¹ C¹), ignoring the mass of the salt. °℃ (c) Heats of reaction find practical application in hot packs or cold packs. Would this dissolution reaction be appropriate for the preparation of a hot pack or a cold pack?
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Chapter1: Chemical Foundations
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Transcribed Image Text:(a) Calculate the standard enthalpy change AH° for this reaction, using the following data:
AH COSO4(s) = = -888.3 kJ mol-1
AH Co2+ (aq) = -58.2 kJ mol-¹
AHSO42(aq) = -909.3 k) mol-1
k)
(b) Calculate the temperature reached by the solution formed when 8.84 g of CoSO4 is dissolved in 0.101 L of water at 24.8 °C.
Approximate the heat capacity of the solution by the heat capacity of 101 g of pure water (specific heat capacity = 4.18 Jg¹
C1), ignoring the mass of the salt.
°C
(c) Heats of reaction find practical application in hot packs or cold packs. Would this dissolution reaction be appropriate for the
preparation of a hot pack or a cold pack?
Bole
hot pack
cold pack
![The salt cobalt(II) sulfate dissolves in water according to the reaction:
COSO4(s)-Co2+ (aq) + SO4² (aq)
(a) Calculate the standard enthalpy change AH° for this reaction, using the following data:
AH C
CoSO4(s) -888.3 k) mol-¹
AH Co2+ (aq) = -58.2 kJ mol-¹
AHSO4 (aq) = -909.3 kJ mol-1
=
KJ
(b) Calculate the temperature reached by the solution formed when 8.84 g of CoSO4 is dissolved in 0.101 L of water at 24.8 °C.
Approximate the heat capacity of the solution by the heat capacity of 101 g of pure water (specific heat capacity = 4.18 ] g ¹
°C-¹), ignoring the mass of the salt.
°C
(c) Heats of reaction find practical application in hot packs or cold packs. Would this dissolution reaction be appropriate for the
preparation of a hot pack or a cold pack?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F56b16a8f-0ea0-49b6-ab81-2b45412d6332%2F01d35179-9240-454b-8b23-fd5c5a51c080%2Fsgmg7vbh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The salt cobalt(II) sulfate dissolves in water according to the reaction:
COSO4(s)-Co2+ (aq) + SO4² (aq)
(a) Calculate the standard enthalpy change AH° for this reaction, using the following data:
AH C
CoSO4(s) -888.3 k) mol-¹
AH Co2+ (aq) = -58.2 kJ mol-¹
AHSO4 (aq) = -909.3 kJ mol-1
=
KJ
(b) Calculate the temperature reached by the solution formed when 8.84 g of CoSO4 is dissolved in 0.101 L of water at 24.8 °C.
Approximate the heat capacity of the solution by the heat capacity of 101 g of pure water (specific heat capacity = 4.18 ] g ¹
°C-¹), ignoring the mass of the salt.
°C
(c) Heats of reaction find practical application in hot packs or cold packs. Would this dissolution reaction be appropriate for the
preparation of a hot pack or a cold pack?
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