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What structure in leaves the gaseous reactants and products of photosynthesis to move in and out?
stomata
Which structure in leaves allows the gaseous and products of photosynthesis to move in and out?
The stoma
What structure in leaves allows the gaseous reactant and products photosynthesis to move in and out?
stomata
What structure in leaves allows the gaseous reactants and products of photosynthesis to move in and out?
Stomata are the small pores found mainly on the underside of leaves that allow for the exchange of gases like carbon dioxide and oxygen during photosynthesis. These openings can open and close to regulate the passage of gases and water vapor.
How do mole ratios compare to volume ratios for gaseous reactants and products in a balanced chemical equation?
At constant temperature and pressure the ratios are equal.
What structure in leaves the gaseous reactants and products of photosynthesis to move in and out?
stomata
What structure in leaves allow the gaseous reactants and products of photosynthesis to move in and out?
stomata
Which structure in leaves allows gaseous reactants and products of photosynthesis to move in and out?
The stoma
Which structure in leaves allow the gaseous reactants and products of photosynthesis to move in and out?
The stoma
Which structure in leaves allows the gaseous reactants and products of photosynthesis move in and out?
The stoma
Which structure in leaves allows the gaseous and products of photosynthesis to move in and out?
The stoma
What structure in leaves allows the gaseous reactant and products of photosynthesis to move in and out?
stomata
What structure in leaves allows the gaseous reactant and products photosynthesis to move in and out?
stomata
Is it true that the subscripts in a balanced chemical equation specify the volume ratios for gaseous reactants and products?
No, the subscripts in a balanced chemical equation represent the number of atoms of each element in the reaction. The coefficients in front of the chemical formulas indicate the mole ratios for reactants and products, but volume ratios of gaseous reactants and products are determined by the ideal gas law and the coefficients in the balanced equation.
What structure in leaves allows the gaseous reactants and products of photosynthesis to move in and out?
Stomata are the small pores found mainly on the underside of leaves that allow for the exchange of gases like carbon dioxide and oxygen during photosynthesis. These openings can open and close to regulate the passage of gases and water vapor.
What would happen to the entropy in the reaction 203g 302g?
The increase in entropy will depend on the physical states of the reactants and products. If the reactants are solid and the products are gaseous, there will likely be an increase in entropy due to the increase in disorder. However, if both the reactants and products are in the same state, the change in entropy may be minimal.
How do mole ratios compare to volume ratios for gaseous reactants and products in a balanced chemical equation?
At constant temperature and pressure the ratios are equal.
