Tag: emerson's experiments & hill's reaction

Questions Related to emerson's experiments & hill's reaction

The product of the light reaction of photosynthesis which is not common between cyclic and non-cyclic photophosphorylation and is not utilised in the Calvin cycle is 

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. O$ _2$

  2. ATP

  3. $NADPH _2$

  4. O$ _2$ and ATP

Show answer
Correct Option: A
Explanation:

In cyclic phosphorylation, oxygen is not evolved as the by-product where as, oxygen is evolved as a by-product during non-cyclic phosphorylation. Calvin cycle is the second stage of photosynthesis in which carbon atoms from carbon dioxide are combined, using the energy in ATP and NADPH, to make glucose.

So, the correct option is 'O$ _{2}$'.

How many quanta of lights are required to evolve one oxygen molecule in photosythesis?

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Three

  2. Eight

  3. Four 

  4. Two

Show answer
Correct Option: B
Explanation:
 The quantum of light required in photosynthesis is 8 photons for one molecule of oxygen to be evolved. In this, 4 photons are required by photosystem II and 4 by photosystem I. The equation for the same is, 
2 x 2H$ _2$O --> 4H$^+$ + O$ _2$ + 4 electrons. 
Thus, the correct answer is 'Eight.'

During the light phase of photosynthesis .......... is oxidized and .......... is reduced.

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. $CO _2$ and Water

  2. Water and $CO _2$

  3. Water and $NADP$

  4. $NADPH _2$ and $CO _2$

Show answer
Correct Option: C
Explanation:

The light reaction takes place in thylakoid discs. There, water is oxidized and oxygen is released. The hydrogen is accepted by $NADP$ and hence get reduced to $NADPH _2$. 

So the correct answer is 'water and $NADP$' respectively.

Which of the following process is supported by photolysis?

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Oxidation

  2. Reduction

  3. Electroporation

  4. Transformation

Show answer
Correct Option: A
Explanation:

Photolysis is the process of breakdown of water molecule in the presence of sunlight. It results in the release of oxygen and hydrogen. It is also called as photodecomposition. It occurs during photosynthesis in a series of light-driven oxidation events. In this, water absorbs photons and the energy released during this process drives oxidation processes induced by light. 

Thus, the correct answer is 'Oxidation.'

Which one is not include in photochemical phase

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Light absorption

  2. Photophosphorylation

  3. $H _2O$ spliting

  4. $CO _2$ reduction

Show answer
Correct Option: D
Explanation:
The photochemical phase of photosynthesis, also known as light reaction includes absorption of light by chlorophyll molecules, splitting of water to generate electrons along with release of oxygen and photophosphorylation to generate ATP.

So, the correct answer is, 'CO2 reduction'.

Which statement is correct for given reaction for photosynthesis?


$ 2 H _2 A + CO _2 \xrightarrow []{light} 2A + CH _2 O + H _2 O $

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. $H$ donor is oxidisable substrate

  2. $O _2 $ evolve from $H _2 O $ if reducible compound is $H _2 O $

  3. Glucose gain its oxygen from $H _2 O $

  4. Both A and C

Show answer
Correct Option: A
Explanation:

The light reaction of the photosynthesis starts when the chlorophyll loses its electron after absorbing the light. In order to maintain the continuity of the reaction, there is a requirement of an oxidizable substance that can donate its electron to the chlorophyll. Water acts as the electron donor through a process called photolysis of water. In this process, the oxygen is also released as a by-product.

A. In the given equation H donor is an oxidizable substrate that happens to be water.
B. O$ _{2}$ is evolved from water but it is not reducible compound.
C. Glucose in oxygen comes from the carbon dioxide and not water. The oxygen from water is released as a by-product of the reaction.
Hence, the correct answer is 'H donor is oxidizable substrate'.

Compensation point refers to the intensity of light at which 

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Rate of respiration = Rate of photosynthesis

  2. Rate of respiration > Rate of photosynthesis

  3. Rate of respiration < Rate of photosynthesis

  4. None of the above is correct

Show answer
Correct Option: A
Explanation:
Rate of photosynthesis in plants is generally higher than respiration but there comes a point of certain light intensity at which uptake of CO2 for photosynthesis is equal to CO2 released from respiration. This point is known as compensation point at which rate of photosynthesis is equal to rate of respiration.
So, the correct answer is 'Rate of respiration = Rate of photosynthesis'.

During photosynthesis

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Both ${ CO } _{ 2 }$ and water get oxidised

  2. Both ${ CO } _{ 2 }$ and water get reduced

  3. Water is reduced and ${ CO } _{ 2 }$ is oxidised

  4. Carbon dioxide get reduced and water get oxidised

Show answer
Correct Option: D
Explanation:
Photosynthesis transfers electrons from water to energy-poor CO$ _{2}$ molecules, forming energy-rich sugar molecules. This electron transfer is an example of an oxidation-reduction process:Water is oxidized in photosynthesis, which means it loses electrons, and carbon dioxide is reduced, meaning it gains electrons.
So, the correct option is 'Carbon dioxide get reduced and water get oxidised'.

Oxidative phosphorylation occurs in respiration and _______ occurs in photosynthesis.

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. Oxidative phosphorylation

  2. Reductive phosphorylation

  3. Cyclic phosphorylation

  4. None of the above

Show answer
Correct Option: C
Explanation:

Phosphorylation refers to the process of formation of ATP. During respiration, the oxidation of NADH and FADH$ _{2}$ results in ATP formation, hence called oxidative phosphorylation. In photosynthesis, the photosystem II is involved in cyclic photophosphorylation. 

Hence, the correct answer is 'Cyclic Phosphorylation'

Suppose the interior of the thylakoids (lumen) of isolated chloroplasts were made acidic and then transferred in dark to a $pH = 8$ solution, what would be likely to happen? 

botany metabolism, cell respiration, and photosynthesis light dependent or hill reaction phases of photosynthesis emerson's experiments & hill's reaction

  1. The isolated chloroplast will make $ATP$

  2. The Calvin cycle will be activated

  3. Cyclic photophosphorylation will occur

  4. The isolated chloroplast will reduce $NADP^+$ to $NADPH + H^+ $

Show answer
Correct Option: A
Explanation:

The acidic lumen of the thylakoids will have a higher concentration of H$^{+}$ ions. When these are transferred to basic pH of 8, the H$^{+}$ will tend to move outside due to their concentration gradient, which is higher in the lumen and lower in the surrounding. The thylakoids bear ATP synthases that will use the proton motive force H$^{+}$ ions and will make the ATP. So, an isolated chloroplast is capable of synthesizing the ATP when the lumen is made acidic and the outer medium is made alkaline.

Hence, the correct answer is 'The isolated chloroplast will make ATP'