Biology
Grade-7
Easy
Question
Cells store the energy in the form of ___.
- ATP
- ADP
- NADP
- NADH
Hint:
The energy currency of the cell is ATP.
The correct answer is: ATP
- ATP or adenosine triphosphate is called the energy currency of the cells
- ATP contains a ribose sugar, adenine as the base, and three phosphate bonds
- The molecular formula for ATP is
![straight C subscript 10 straight H subscript 16 straight N subscript 5 straight O subscript 13 straight P subscript 3](data:image/png;base64,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)
- The ATP provides energy when phosphate is removed from it and becomes ADP (adenosine diphosphate). The reaction is as follows:
![ATP plus straight H subscript 2 straight O rightwards arrow ADP plus straight P subscript straight i plus straight H to the power of plus plus Energy](data:image/png;base64,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)
- ATP stores the energy obtained from the catabolism of food materials and provides energy during the metabolic reactions of a cell
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Identify the incorrect pair from the following.
![](data:image/png;base64,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)
Identify the incorrect pair from the following.
![](data:image/png;base64,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)
ChemistryGrade-7
Chemistry
State whether the following statements are true or false.
STATEMENT-1:
STATEMENT-2:
STATEMENT-3:
(i) The particles of suspension scatter a beam of light passing through them and making their path visible.
(ii) In the solution, a particle of solute can be separated from the mixture by filtration.
(iii) A solution in which the solute concentration is much less than that of the solvent is called a dilute solution.
State whether the following statements are true or false.
STATEMENT-1:
STATEMENT-2:
STATEMENT-3:
(i) The particles of suspension scatter a beam of light passing through them and making their path visible.
(ii) In the solution, a particle of solute can be separated from the mixture by filtration.
(iii) A solution in which the solute concentration is much less than that of the solvent is called a dilute solution.
ChemistryGrade-7