ATP :

How many molecules of ATP and NADPH are require in formation of two molecules of glucose? How many Calvin cycles are required? (A) 18 ATP, 12 NADPH 6 Calvin cycles (B) 36 ATP, 24 NADPH, 12 Calvin cycles (C) 36-ATP, 24 NADPH, 6 Calvin cycles (D) 24 ATP,36 NADPH, 12 Calvin cycles

Given below is a diagram showing ATP synthesis during aerobic respiration, replace the symbols A, B, C, D and E by appropriate germs given below , F_(1) , particle, formation of Pi, 2H^(+) , inner mitochondrial membrane, ATP, Fo particle, ADP.

The entire process of photosynthesis consists of a number of reactions. Where in the cell do each of these take place ? (a) Synthesis of ATP & NADPH …….. . (b) Photolysis of water ….. . (c ) Fixation of CO_(2) …… . (d) Synthesis of sugar molecule ....... . Synthesis of strach ...... .

The energy yield in terms of ATP is higher in aerobic respiration than during anaerobic respiration. Why is there anaerobic respiration even in organisms that live in aerobic condition like human beings and angiosperms ?

A process is occurring throughout the day, in 'X' organism. Cells are participating in this process. During the process ATP, CO_(2) and water are evoled. It is not a light dependent process. (a) Name the process. (b) It is a catabolic or an anabolic process ? What could be the raw material to this process ?

With reference to three Calvin cycles, which of the given options is correct for the following questions ? (i) How many gross PGAL molecules are produced ? (ii) Total, how many ATP molecules are required for synthesis of obtained PGAL molecules ? (iii) Total, how many NADPH, molecules are required for the synthesis of obtained PGAL molecules ?

For the given statement 'X' and 'Y', which option is the correct option. Statement 'X' : Red muscle are also called aerobic muscle. Statement ‘Y' : Rod muscle possesses large amount of mitochondria which can utilize large amount of oxygen stored in them for ATP production. Options :

3CO_(2) + 9ATP + 6NADPH + water rarr "glyceral - dehyde 3 - photosphate" + 3ADP + 6NADP^(+) + 8 pi. Anslyse the above reaction and answer the following questions : How many molecules of ATP and NADPH are required to fix one molecule of CO_(2) ? Where in the chloroplast does this process occur ?