Statement 1: |
If joint equation of the lines and is |
Statement 2: |
Every second degree equation , always represents a pair of straight line |
a) |
Statement 1 is True, Statement 2 is True; Statement 2 is correct explanation for Statement 1 |
b) |
Statement 1 is True, Statement 2 is True; Statement 2 is not correct explanation for Statement 1 |
c) |
Statement 1 is True, Statement 2 is False |
d) |
Statement 1 is False, Statement 2 is True |
Statement 1: |
If joint equation of the lines and is |
Statement 2: |
Every second degree equation , always represents a pair of straight line |
a) |
Statement 1 is True, Statement 2 is True; Statement 2 is correct explanation for Statement 1 |
b) |
Statement 1 is True, Statement 2 is True; Statement 2 is not correct explanation for Statement 1 |
c) |
Statement 1 is True, Statement 2 is False |
d) |
Statement 1 is False, Statement 2 is True |
(c)
Represents the general equation of second of second degree. It represents a pair of straight lines, if
Thus, statement II is false
And the equation of the pair of straight lines formed by
and is given by
Thus, statement I is true