List I | List II | ||
A | Lipase | I | Peptide bond |
B | Nuclease | II | Ester bond |
C | Protease | III | Glycosidic bond |
D | Amylase | IV | Phosphodiester bond |
Match List I with List II
List I (Cells) | List II (Secretion) | ||
A | Peptic cells | I | Mucus |
B | Goblet cells | II | Bile juice |
C | Oxyntic cells | III | Proenzyme pepsinogen |
D | Hepatic cells | IV | HCl and intrinsic factor for absorption of vitamin B12 |
Choose the correct answer from the options given below:
If
\[ A = \{ P(\alpha, \beta) \mid \text{the tangent drawn at P to the curve } y^3 - 3xy + 2 = 0 \text{ is a horizontal line} \} \]
and
\[ B = \{ Q(a, b) \mid \text{the tangent drawn at Q to the curve } y^3 - 3xy + 2 = 0 \text{ is a vertical line} \} \]
then \( n(A) + n(B) = \)
If Rolle's Theorem is applicable for the function:
\[ f(x) = \begin{cases} x^p \log x, & x \neq 0 \\ 0, & x = 0 \end{cases} \]
on the interval \([0,1]\), then a possible value of \( p \) is: