Why oceans do not freeze. Introduction: Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

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Answer 1

Question

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

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For short answer questions, write your answers on the line provided. To the right is the mRNA codon table to use as needed throughout the exam. First letter U บบบ U CA UUCPhe UUA UCU Phe UCC UUG Leu CUU UAU. G U UAC TV UGCys UAA Stop UGA Stop A UAG Stop UGG Trp Ser UCA UCG CCU] 0 CUC CUA CCC CAC CAU His CGU CGC Leu Pro CCA CAA Gin CGA Arg CUG CCG CAG CGG AUU ACU AAU T AUC lle A 1 ACC Thr AUA ACA AUG Mot ACG AGG Arg GUU GCU GUC GCC G Val Ala GAC Asp GGU GGC GUA GUG GCA GCG GAA GGA Gly Glu GAGJ GGG AACASH AGU Ser AAA1 AAG Lys GAU AGA CAL CALUCAO CAO G Third letter 1. (+7) Use the table below to answer the questions; use the codon table above to assist you. The promoter sequence of DNA is on the LEFT. You do not need to fill in the entire table. Assume we are in the middle of a gene sequence (no need to find a start codon). DNA 1 DNA 2 mRNA tRNA Polypeptide C Val G C. T A C a. On which strand of DNA is the template strand (DNA 1 or 2)?_ b. On which side of the mRNA is the 5' end (left or…

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4. (6 pts) Use the molecule below to answer these questions and identify the side chains and ends. Please use tidy boxes to indicate parts and write the letter labels within that box. a. How many monomer subunits are shown? b. Box a Polar but non-ionizable side chain and label P c. Box a Basic Polar side chain and label BP d. Box the carboxyl group at the end of the polypeptide and label with letter C (C-terminus) H H OHHO H H 0 HHO H-N-CC-N-C-C N-C-C-N-GC-OH I H-C-H CH2 CH2 CH2 H3C-C+H CH2 CH2 OH CH CH₂ C=O OH CH2 NH2

Answer 2

Question

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

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Answer 3

Question

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

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Answer 4

Question

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

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Answer 5

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

Answer 6

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.

Conclusion

The salt in water lowers the freezing point of water due to which ocean water does not freeze.

Answer 7

Chapter 2, Problem 1TC

Summary Introduction

To explain:

Why oceans do not freeze.

Introduction:

Water is the universal solvent. It is a polar molecule so it dissolves only polar molecules. Substances (solute) dissociate due to the polarity of both solute and solvent. Solutes change the characteristics of the solvent like lowering the freezing point and elevating the boiling point.

Answer 8

Expert Solution & Answer

Explanation of Solution

Ocean water is saline which means it has salt in it, mostly sodium chloride (common salt). Sodium chloride ( $NaCl$ ) is formed by an ionic bond and so are polar. Sodium (Na⁺) has a positive charge and chloride (Cl^-) has a negative charge.

Similar is the case with water (H₂O). Oxygen has a negative charge (O^-) while hydrogen atoms (H⁺) have a positive charge. $NaCl$ dissociates in water. The positive sodium is attracted by the negative oxygen of water. And the negative chloride ion attracted to the positive hydrogen of water. Thus, a sodium ion is surrounded by water with oxygen facing the sodium ion and a chloride ion is surrounded by water with hydrogen facing the chloride ion.

When water experiences cold temperatures it initially shrinks and becomes dense till $4 ° C$ (water is densest here). Further decrease in temperature does not allow water molecules to move and the hydrogen bonds keep the water molecules apart so its density decreases again and water freezes. That is why ice has a lower density than water and floats.

However, due to the sodium chloride mixed in water, the hydrogen bonds are not allowed to open and water molecules’ movement does not stop. The vapor pressure is also decreased by the solute (salt). Hence, the freezing point of salt water is lowered to $-2 ° C$ from $0 ° C$ .

Also at times when water does freeze on reaching this temperature, only the top layer freezes. The water below it is insulated from cold by the ice and life continues below it.