Tag: surface chemistry
Questions Related to surface chemistry
Metal ions can activate enzymes.
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True
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False
Yes, Metals ion can active enzymes.
$Cl^-$ ions act as activators for:
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amylases
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peptidases
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glycosidases
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lipases
$Cl^{-}$ ions act as activators for amylase enzyme.
The temperature at which the catalytic activity of the catalyst is maximum, is called:
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critical temperature
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room temperature
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absolute temperature
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optimum temperature
Some catalysts are, however, physically altered by a rise in temperature and hence their catalytic activity may be decreased. This is particularly true with colloidal solutions like that of platinum, since a rise in the temperature may cause their coagulation. In such a case, the rate of reaction increases up to a certain point and then gradually decreases. The rate of reaction is maximum at a particular temperature; that is Optimum temperature.
Which one of the following statements is false?
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Enzymes arc highly specific
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Enzymes increase activation energy
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Enzymes require optimum temperature
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None of the above
- Enzymes serve as a biological catalyst by accelerating the rate of chemical reaction occurring inside the cells of living organisms, thus decreasing the activation energy required for the reaction to occur.
- Enzymes are very specific in nature, implying that, a particular enzyme can catalyze only a specific reaction and not all the reactions.
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The optimum temperature for an enzyme to function effectively is $37.5^o C$ which is also the normal human body temperature. At a temperature above this, enzymes undergo denaturation, thus, showing a reduced performance
Which of the following catalysts is sensitive to temperature changes?
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Enzymes
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$Pt, Fe$
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$Ni, Fe$
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All of the above
Enzymes are specific in their action and catalyze reactions at lower temperature. At high temperature, they lose their specific nature and get denatured.
The function of zymase is to:
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change starch into sugar
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ferment glucose to alcohol and carbon dioxide
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change malt sugar into glucose
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change starch into malt sugar and dextrin
Zymase is an enzyme complex that catalyzes the fermentation of sugar into ethanol and carbon dioxide.
Hence option B is correct.
The enzyme ptyalin used for digestion of food is present in:
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saliva
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blood
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intestine
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adrenal glands
The enzyme ptyalin, also known as amylase is present in saliva and is responsible for breaking down starch into simple sugars such as dextrin and maltose which are further broken down in the intestine
The function of enzymes in the living system is to________.
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Transport oxygen
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Provide immunity
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Catalyse biochemical reaction
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Provide energy
The function of enzymes in the living system is to catalyse biochemical reaction.
Enzymes are highly substrate specific and catalyze reactions by providing an alternate pathway of lower activation energy.
A catalyst increases the rate of reaction by_________.
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Decreasing enthalpy
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Decreasing internal energy
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Decreasing activation energy
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Increasing activation energy
A catalyst increases the rate of reaction by decreasing activation energy.
Note: The function of enzymes in the living system is to catalyse biochemical reaction.
Enzymes are highly substrate specific and catalyze reactions by providing an alternate pathway of lower activation energy.
Identify the correct statement regarding enzymes:
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Enzymes are specific biological catalysts that can normally function at very high temperature
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Enzymes are normally heterogeneous catalysts that are very specific in action.
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Enzymes are specific biological catalysts that cannot be poisoned
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Enzymes are specific biological catalysts that possess well defined active site
Enzymes are specific biological catalysts that possess well defined active site.
Enzymes function at physiological temperature $ \displaystyle \simeq (37 : ^oC)$