(a) To Calculate: The value of Δ G for the plastoquinone by 870nm light. Introduction: Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Question

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Answer 1

Question

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

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Students have asked these similar questions

In cyclic photophosphorylation, it is estimated that two electrons must bepassed through the cycle to pump enough protons to generate one ATP.Assuming that the ∆G for hydrolysis of ATP under conditions existing inthe chloroplast is about -50 kJ/mol, what is the corresponding percent efficiency of cyclic photophosphorylation, using light of 700 nm?

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Answer 2

Question

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

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Answer 3

Question

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Question

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

Answer 6

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Answer 7

Chapter 21, Problem 16P

Interpretation Introduction

(a)

To Calculate:

The value of ΔG for the plastoquinone by 870nm light.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Answer 8

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=avogardo’s number

λ =wave length

For one mole of photon 870nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)870nm×109nm/m

=137547J=137.5kJ

As 2 moles of quanta is considered,

137.5×2=275.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kj/Vmol

=−2(96.485kj/V.mol)(-0.43V)=-83.0kJ/mol

Now G is calculated as,

−275.0kJ+83.0kJ⇒−192kJ

Answer 9

Expert Solution

Answer 10

Expert Solution

Answer 11

Expert Solution

Answer 12

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Answer 13

Interpretation Introduction

(b)

To predict:

For the plastoquinone by 700 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Answer 14

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

H=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 700nm we have,

E=(6.02×1023)(6.626×10-34 Jsec)(3×102 m/sec)700 nm×109 nm/m

=170951 J=171.0 kJ

As 2 moles of quanta is considered,

171×2=342.0 kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485 kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−342.0kJ+83.0kJ=-256kJ

Answer 15

Expert Solution

Answer 16

Expert Solution

Answer 17

Expert Solution

Answer 18

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

Answer 19

Interpretation Introduction

(c)

To predict:

For the plastoquinone by 680 nm light ΔG is calculated.

Introduction:

Oxygen is produced during the photosynthesis and this oxygen evolution rate is measured. Method of calibration is used having the hydrogen peroxide and the précised reading of the oxygen concentration is ensured by using the catalyst. The oxygen that is above the air saturated level is measured.

Answer 20

Expert Solution

Explanation of Solution

The light quantum energy is determined using the given formula,

E=Nhcλ

Where,

h=Planck’s constant

c=light speed

N=Avogadro’s number

λ =wave length

For one mole of photon 680nm we have,

E=(6.02×1023)(6.626×10-34Jsec)(3×102m/sec)680nm×109nm/m

=175979J⇒176.0kJ

As 2 moles of quanta is considered,

176*2=352.0kJ

The free change of energy for the reaction is calculated by determining the change of the standard potential,

ΔE0'=acceptorΔE0'−donorΔE0'

=0.07V−0.5V=−0.43V

ΔG0' is calculated using,

ΔG0'=−nFΔE0'n=2F=96,485kJ/Vmol

=−2(96.485kJ/V.mol)(-0.43V)=--83.0kJ/mol

Now G is calculated as,

−352.2kJ+83.0kJ=-269kJ

Answer 21

Expert Solution

Answer 22

Expert Solution

Answer 23

Expert Solution

Answer 24

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