238042
Maximum absorption of light occurs in the region of:
1 $400-700 \mathrm{~nm}$
2 $700-900 \mathrm{~nm}$
3 $1000-1200 \mathrm{~nm}$
4 $1500-2000 \mathrm{~nm}$
Explanation:
A White light, as it come to us from sun, is composed of waves of different lengths, ranging from longer waves of red light through relatively longer waves and successively shorter waves to violet light, so the visible light wavelength is between 400 and $700 \mathrm{~nm}$.
JIPMER-2003 / VMMC-2002 /Haryana PMT-2000
Photosynthesis in higher plants
238043
The photosynthetic pigments viz, erythrolable, chlorolable and cyanolable respectively are :
1 green, red, blue
2 red, blue, green
3 red, green, blue
4 blue, green, red
Explanation:
C There are different kinds of cones, each of which can recognize a specific wavelength of light and give us the ability to see color. Erythrolabe :- It detects red colour Chlorolabe :- It detects green colour Cyanolabe :- It delects blue colour
JIPMER-2001
Photosynthesis in higher plants
238044
Solarization is
1 formation of chlorophyll
2 destruction of chlorophyll
3 utilization of sunlight
4 effects of solar light
Explanation:
B Basically solarization is destruction of chlorophyll. Inhibition of photosynthesis under very high light intensities is known as solarization, and it is mostly caused by the photooxidation of certain molecules like chlorophyll. Chlorophyll is damaged by solarization.
BHU PMT (Mains)-2008 BHU PMT (Screening)-2005
Photosynthesis in higher plants
238022
Chlorophyll-a is in colour.
1 yellow
2 blue green
3 orange
4 yellow green
Explanation:
B Chlorophyll-a is the universal photosynthetic pigment. Chlorophyll-a is bluish green in colour chlorophyll-a absorb Red and Blue light.
MHT CET-06.10.2020 Shift-I
Photosynthesis in higher plants
238023
Photosystem II occurs in
1 stroma
2 cytochrome
3 grana
4 mitochondrial surface
Explanation:
C Photosystem II occurs in grana. It is the first step in the chain of photosynthesis. It is responsible for capturing light energy and using it to initiate the flow of electrons by extracting them from water molecules through a process called photolysis. The water-splitting and oxygen evolving reaction is catalyzed by photosystem II. While in photosystem I process it generates the reducing power for the reduction of $\mathrm{NADP}^{+}$to NADPH.
238042
Maximum absorption of light occurs in the region of:
1 $400-700 \mathrm{~nm}$
2 $700-900 \mathrm{~nm}$
3 $1000-1200 \mathrm{~nm}$
4 $1500-2000 \mathrm{~nm}$
Explanation:
A White light, as it come to us from sun, is composed of waves of different lengths, ranging from longer waves of red light through relatively longer waves and successively shorter waves to violet light, so the visible light wavelength is between 400 and $700 \mathrm{~nm}$.
JIPMER-2003 / VMMC-2002 /Haryana PMT-2000
Photosynthesis in higher plants
238043
The photosynthetic pigments viz, erythrolable, chlorolable and cyanolable respectively are :
1 green, red, blue
2 red, blue, green
3 red, green, blue
4 blue, green, red
Explanation:
C There are different kinds of cones, each of which can recognize a specific wavelength of light and give us the ability to see color. Erythrolabe :- It detects red colour Chlorolabe :- It detects green colour Cyanolabe :- It delects blue colour
JIPMER-2001
Photosynthesis in higher plants
238044
Solarization is
1 formation of chlorophyll
2 destruction of chlorophyll
3 utilization of sunlight
4 effects of solar light
Explanation:
B Basically solarization is destruction of chlorophyll. Inhibition of photosynthesis under very high light intensities is known as solarization, and it is mostly caused by the photooxidation of certain molecules like chlorophyll. Chlorophyll is damaged by solarization.
BHU PMT (Mains)-2008 BHU PMT (Screening)-2005
Photosynthesis in higher plants
238022
Chlorophyll-a is in colour.
1 yellow
2 blue green
3 orange
4 yellow green
Explanation:
B Chlorophyll-a is the universal photosynthetic pigment. Chlorophyll-a is bluish green in colour chlorophyll-a absorb Red and Blue light.
MHT CET-06.10.2020 Shift-I
Photosynthesis in higher plants
238023
Photosystem II occurs in
1 stroma
2 cytochrome
3 grana
4 mitochondrial surface
Explanation:
C Photosystem II occurs in grana. It is the first step in the chain of photosynthesis. It is responsible for capturing light energy and using it to initiate the flow of electrons by extracting them from water molecules through a process called photolysis. The water-splitting and oxygen evolving reaction is catalyzed by photosystem II. While in photosystem I process it generates the reducing power for the reduction of $\mathrm{NADP}^{+}$to NADPH.
NEET Test Series from KOTA - 10 Papers In MS WORD
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Photosynthesis in higher plants
238042
Maximum absorption of light occurs in the region of:
1 $400-700 \mathrm{~nm}$
2 $700-900 \mathrm{~nm}$
3 $1000-1200 \mathrm{~nm}$
4 $1500-2000 \mathrm{~nm}$
Explanation:
A White light, as it come to us from sun, is composed of waves of different lengths, ranging from longer waves of red light through relatively longer waves and successively shorter waves to violet light, so the visible light wavelength is between 400 and $700 \mathrm{~nm}$.
JIPMER-2003 / VMMC-2002 /Haryana PMT-2000
Photosynthesis in higher plants
238043
The photosynthetic pigments viz, erythrolable, chlorolable and cyanolable respectively are :
1 green, red, blue
2 red, blue, green
3 red, green, blue
4 blue, green, red
Explanation:
C There are different kinds of cones, each of which can recognize a specific wavelength of light and give us the ability to see color. Erythrolabe :- It detects red colour Chlorolabe :- It detects green colour Cyanolabe :- It delects blue colour
JIPMER-2001
Photosynthesis in higher plants
238044
Solarization is
1 formation of chlorophyll
2 destruction of chlorophyll
3 utilization of sunlight
4 effects of solar light
Explanation:
B Basically solarization is destruction of chlorophyll. Inhibition of photosynthesis under very high light intensities is known as solarization, and it is mostly caused by the photooxidation of certain molecules like chlorophyll. Chlorophyll is damaged by solarization.
BHU PMT (Mains)-2008 BHU PMT (Screening)-2005
Photosynthesis in higher plants
238022
Chlorophyll-a is in colour.
1 yellow
2 blue green
3 orange
4 yellow green
Explanation:
B Chlorophyll-a is the universal photosynthetic pigment. Chlorophyll-a is bluish green in colour chlorophyll-a absorb Red and Blue light.
MHT CET-06.10.2020 Shift-I
Photosynthesis in higher plants
238023
Photosystem II occurs in
1 stroma
2 cytochrome
3 grana
4 mitochondrial surface
Explanation:
C Photosystem II occurs in grana. It is the first step in the chain of photosynthesis. It is responsible for capturing light energy and using it to initiate the flow of electrons by extracting them from water molecules through a process called photolysis. The water-splitting and oxygen evolving reaction is catalyzed by photosystem II. While in photosystem I process it generates the reducing power for the reduction of $\mathrm{NADP}^{+}$to NADPH.
238042
Maximum absorption of light occurs in the region of:
1 $400-700 \mathrm{~nm}$
2 $700-900 \mathrm{~nm}$
3 $1000-1200 \mathrm{~nm}$
4 $1500-2000 \mathrm{~nm}$
Explanation:
A White light, as it come to us from sun, is composed of waves of different lengths, ranging from longer waves of red light through relatively longer waves and successively shorter waves to violet light, so the visible light wavelength is between 400 and $700 \mathrm{~nm}$.
JIPMER-2003 / VMMC-2002 /Haryana PMT-2000
Photosynthesis in higher plants
238043
The photosynthetic pigments viz, erythrolable, chlorolable and cyanolable respectively are :
1 green, red, blue
2 red, blue, green
3 red, green, blue
4 blue, green, red
Explanation:
C There are different kinds of cones, each of which can recognize a specific wavelength of light and give us the ability to see color. Erythrolabe :- It detects red colour Chlorolabe :- It detects green colour Cyanolabe :- It delects blue colour
JIPMER-2001
Photosynthesis in higher plants
238044
Solarization is
1 formation of chlorophyll
2 destruction of chlorophyll
3 utilization of sunlight
4 effects of solar light
Explanation:
B Basically solarization is destruction of chlorophyll. Inhibition of photosynthesis under very high light intensities is known as solarization, and it is mostly caused by the photooxidation of certain molecules like chlorophyll. Chlorophyll is damaged by solarization.
BHU PMT (Mains)-2008 BHU PMT (Screening)-2005
Photosynthesis in higher plants
238022
Chlorophyll-a is in colour.
1 yellow
2 blue green
3 orange
4 yellow green
Explanation:
B Chlorophyll-a is the universal photosynthetic pigment. Chlorophyll-a is bluish green in colour chlorophyll-a absorb Red and Blue light.
MHT CET-06.10.2020 Shift-I
Photosynthesis in higher plants
238023
Photosystem II occurs in
1 stroma
2 cytochrome
3 grana
4 mitochondrial surface
Explanation:
C Photosystem II occurs in grana. It is the first step in the chain of photosynthesis. It is responsible for capturing light energy and using it to initiate the flow of electrons by extracting them from water molecules through a process called photolysis. The water-splitting and oxygen evolving reaction is catalyzed by photosystem II. While in photosystem I process it generates the reducing power for the reduction of $\mathrm{NADP}^{+}$to NADPH.
238042
Maximum absorption of light occurs in the region of:
1 $400-700 \mathrm{~nm}$
2 $700-900 \mathrm{~nm}$
3 $1000-1200 \mathrm{~nm}$
4 $1500-2000 \mathrm{~nm}$
Explanation:
A White light, as it come to us from sun, is composed of waves of different lengths, ranging from longer waves of red light through relatively longer waves and successively shorter waves to violet light, so the visible light wavelength is between 400 and $700 \mathrm{~nm}$.
JIPMER-2003 / VMMC-2002 /Haryana PMT-2000
Photosynthesis in higher plants
238043
The photosynthetic pigments viz, erythrolable, chlorolable and cyanolable respectively are :
1 green, red, blue
2 red, blue, green
3 red, green, blue
4 blue, green, red
Explanation:
C There are different kinds of cones, each of which can recognize a specific wavelength of light and give us the ability to see color. Erythrolabe :- It detects red colour Chlorolabe :- It detects green colour Cyanolabe :- It delects blue colour
JIPMER-2001
Photosynthesis in higher plants
238044
Solarization is
1 formation of chlorophyll
2 destruction of chlorophyll
3 utilization of sunlight
4 effects of solar light
Explanation:
B Basically solarization is destruction of chlorophyll. Inhibition of photosynthesis under very high light intensities is known as solarization, and it is mostly caused by the photooxidation of certain molecules like chlorophyll. Chlorophyll is damaged by solarization.
BHU PMT (Mains)-2008 BHU PMT (Screening)-2005
Photosynthesis in higher plants
238022
Chlorophyll-a is in colour.
1 yellow
2 blue green
3 orange
4 yellow green
Explanation:
B Chlorophyll-a is the universal photosynthetic pigment. Chlorophyll-a is bluish green in colour chlorophyll-a absorb Red and Blue light.
MHT CET-06.10.2020 Shift-I
Photosynthesis in higher plants
238023
Photosystem II occurs in
1 stroma
2 cytochrome
3 grana
4 mitochondrial surface
Explanation:
C Photosystem II occurs in grana. It is the first step in the chain of photosynthesis. It is responsible for capturing light energy and using it to initiate the flow of electrons by extracting them from water molecules through a process called photolysis. The water-splitting and oxygen evolving reaction is catalyzed by photosystem II. While in photosystem I process it generates the reducing power for the reduction of $\mathrm{NADP}^{+}$to NADPH.
