Three common strong acids are to be named. Concept introduction: Acid is a substance that dissociates in water to release H + ions. Depending upon the strength the acids can be classified into two types: 1. Strong acids 2. Weak acids Strong acids are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release H + ions. They behave as strong electrolytes and conduct a large amount of electricity. Weak acids are the substance that does not dissociates completely into its ions when dissolved in the solution. They dissociate partially in water to release H + ions. They behave as weak electrolytes and conduct less amount of electricity.

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Technetium is the first element in the periodic chart that does not have any stable isotopes. Technetium-99m is an especially interesting and valuable isotope as it emits a gamma ray with a half life ideally suited for medical tests. It would seem that the decay of technetium should fit the treatment above with the result In(c/c) = -kt. The table below includes data from the two sites: http://dailymed.nlm.nih.gov/dailymed/druginfo.cfm?id=7130 http://wiki.medpedia.com/Clinical: Neutrospec_(Technetium_(99m Tc)_fanolesomab). a. b. C. Graph the fraction (c/c.) on the vertical axis versus the time on the horizontal axis. Also graph In(c/c.) on the vertical axis versus time on the horizontal axis. When half of the original amount of starting material has hours fraction remaining disappeared, c/c = ½ and the equation In(c/c.) = -kt becomes In(0.5) = -kt1/2 where t₁₂ is the half life (the time for half of the material to decay away). Determine the slope of your In(c/c.) vs t graph and…

Answer 1

Question

Chapter 4, Problem 4.59P

(a)

Interpretation Introduction

Interpretation:

Three common strong acids are to be named.

Concept introduction:

Acid is a substance that dissociates in water to release H+ ions. Depending upon the strength the acids can be classified into two types:

1. Strong acids

2. Weak acids

Strong acids are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release H+ ions. They behave as strong electrolytes and conduct a large amount of electricity.

Weak acids are the substance that does not dissociates completely into its ions when dissolved in the solution. They dissociate partially in water to release H+ ions. They behave as weak electrolytes and conduct less amount of electricity.

(b)

Interpretation Introduction

Interpretation:

Three common strong bases are to be named.

Concept introduction:

A base is a substance that dissociates in water to release OH− ions. Depending upon the strength, bases can be classified into two types:

1. Strong bases

2. Weak bases

Strong bases are the substance that dissociates completely into its ions when dissolved in the solution. They dissociate completely in water to release OH− ions. They behave as strong electrolytes and conduct a large amount of electricity.

Weak bases are the substance that does not dissociates completely into its ions when dissolved in the solution. They dissociate partially in water to release OH− ions. They behave as weak electrolytes and conduct less amount of electricity.

(c)

Interpretation Introduction

Interpretation:

The characteristic behavior of a strong acid or a strong base is to be determined.

Concept introduction:

Acid is a substance that dissociates in water to release H+ ions. The dissociation reaction of acid is:

HX→H2OH+(aq)+X−(aq)

A base is a substance that dissociates in water to release OH− ions. The dissociation reaction of the base is:

MOH→H2OM+(aq)+OH−(aq)

Depending upon the strength of dissociation, acids, and bases can be classified into two types:

1 Strong acids and strong bases

2. Weak acids and weak bases

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Technetium is the first element in the periodic chart that does not have any stable isotopes. Technetium-99m is an especially interesting and valuable isotope as it emits a gamma ray with a half life ideally suited for medical tests. It would seem that the decay of technetium should fit the treatment above with the result In(c/c) = -kt. The table below includes data from the two sites: http://dailymed.nlm.nih.gov/dailymed/druginfo.cfm?id=7130 http://wiki.medpedia.com/Clinical: Neutrospec_(Technetium_(99m Tc)_fanolesomab). a. b. C. Graph the fraction (c/c.) on the vertical axis versus the time on the horizontal axis. Also graph In(c/c.) on the vertical axis versus time on the horizontal axis. When half of the original amount of starting material has hours fraction remaining disappeared, c/c = ½ and the equation In(c/c.) = -kt becomes In(0.5) = -kt1/2 where t₁₂ is the half life (the time for half of the material to decay away). Determine the slope of your In(c/c.) vs t graph and…

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