The temperature in a blast furnace used for the iron production in degree Celcius ( °C ) and Kelvin ( K ) is to be calculated. Concept introduction: The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin ( K ) . The other units of temperature are degree Celcius ( °C ) and Fahrenheit ( ° F ) . The first is the Fahrenheit ( °F ) scale common in the United States. On this scale, the freezing point of water is 32 °F and the boiling point is 212 °F . The room temperature is around 72 ° F on this scale. The other scale common in countries apart from the United States is the Celsius ( °C ) scale. On this scale, the freezing point of water is 0 °C and the boiling point of water is 100 °C . The room temperature is around 22 °C . The third scale is the Kelvin scale which is also known as Absolute scale. The conversion factor to convert temperature from degree Celsius to Kelvin is, T ( K ) = T ( °C ) + 273.15 (1) The conversion factor to convert temperature from Fahrenheit to degree Celsius is, T ( ° C ) = 5 9 ( T ( °F ) − 32 ) (2)

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Answer 1

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Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

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Answer 2

Question

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

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Answer 3

Question

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

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Answer 4

Question

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

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Answer 5

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

Answer 6

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

Answer 7

Chapter 1.4, Problem 1.8BFP

Interpretation Introduction

Interpretation:

The temperature in a blast furnace used for the iron production in degree Celcius $(°C)$ and Kelvin $(K)$ is to be calculated.

Concept introduction:

The temperature of an object is the measure of the coldness and hotness of the object relative to another object. The S.I unit of temperature is Kelvin $(K)$ . The other units of temperature are degree Celcius $(°C)$ and Fahrenheit $(°F)$ .

The first is the Fahrenheit $(°F)$ scale common in the United States. On this scale, the freezing point of water is $32 °F$ and the boiling point is $212 °F$ . The room temperature is around $72 °F$ on this scale.

The other scale common in countries apart from the United States is the Celsius $(°C)$ scale. On this scale, the freezing point of water is $0 °C$ and the boiling point of water is $100 °C$ . The room temperature is around $22 °C$ .

The third scale is the Kelvin scale which is also known as Absolute scale.

The conversion factor to convert temperature from degree Celsius to Kelvin is,

$T(K)=T(°C)+273.15$ (1)

The conversion factor to convert temperature from Fahrenheit to degree Celsius is,

$T(°C)=59(T(°F)−32)$ (2)

Answer 8

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Answer 11

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