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Science Chemistry EBK CHEMICAL PRINCIPLES

The mass of hot water that must be added to 90 g of cold water to reach a final temperature of 37.0 °C needs to be calculated Concept Introduction: Chemical reactions in general involve exchange of heat between the system (reactants and products) and the surroundings. The heat (q) absorbed or evolved is given as: q = m ×c×ΔT ------(1) Here, m and c are the mass and specific heat capacity of the substance. ΔT = change in temperature= T f i n a l -T i n i t i a l

The mass of hot water that must be added to 90 g of cold water to reach a final temperature of 37.0 °C needs to be calculated Concept Introduction: Chemical reactions in general involve exchange of heat between the system (reactants and products) and the surroundings. The heat (q) absorbed or evolved is given as: q = m ×c×ΔT ------(1) Here, m and c are the mass and specific heat capacity of the substance. ΔT = change in temperature= T f i n a l -T i n i t i a l

Solution Summary: The author calculates the mass of hot water that must be added to 90 g of cold water to reach a final temperature of 37.0 °C.

EBK CHEMICAL PRINCIPLES

EBK CHEMICAL PRINCIPLES

8th Edition

ISBN: 9781305856745

Author: DECOSTE

Publisher: CENGAGE LEARNING - CONSIGNMENT

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Chapter 9, Problem 47E

Interpretation Introduction

Interpretation:

The mass of hot water that must be added to 90 g of cold water to reach a final temperature of 37.0 °C needs to be calculated

Concept Introduction:

Chemical reactions in general involve exchange of heat between the system (reactants and products) and the surroundings. The heat (q) absorbed or evolved is given as: q = m ×c×ΔT ------(1)

Here, m and c are the mass and specific heat capacity of the substance.

ΔT = change in temperature= T_f_i_n_a_l-T_i_n_i_t_i_a_l

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Chapter 9, Problem 46E

Chapter 9, Problem 48E

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Chapter 9 Solutions

EBK CHEMICAL PRINCIPLES

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