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Science Chemistry CHEM:ATOM FIRST V.1 W/ACCESS >C

Given the thermochemical equation, 2 C u 2 O ( s ) → 4 C u ( s ) + O 2 ( g ) , Δ H = +333.8 kJ/mol, calculate the mass of copper produced when 1.47 × 10 4 kJ is consumed in this reaction. (a) 11.2 kg (b) 176 kg (c) 44.0 kg (d) 334 kg (e) 782 kg

Given the thermochemical equation, 2 C u 2 O ( s ) → 4 C u ( s ) + O 2 ( g ) , Δ H = +333.8 kJ/mol, calculate the mass of copper produced when 1.47 × 10 4 kJ is consumed in this reaction. (a) 11.2 kg (b) 176 kg (c) 44.0 kg (d) 334 kg (e) 782 kg

Solution Summary: The author explains that the mass of Copper was calculated from the data.

CHEM:ATOM FIRST V.1 W/ACCESS >C

CHEM:ATOM FIRST V.1 W/ACCESS >C

17th Edition

ISBN: 9781307132731

Author: Burdge

Publisher: MCG/CREATE

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Textbook Question

Chapter 10.3, Problem 10.3.2SR

Given the thermochemical equation, 2 C u 2 O ( s ) → 4 C u ( s ) + O 2 ( g ) , ΔH = +333.8 kJ/mol, calculate the mass of copper produced when 1.47 × 10⁴ kJ is consumed in this reaction.

(a) 11.2 kg

(b) 176 kg

(c) 44.0 kg

(d) 334 kg

(e) 782 kg

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Chapter 10.3, Problem 10.3.1SR

Chapter 10.4, Problem 10.4WE

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CHEM:ATOM FIRST V.1 W/ACCESS >C

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