Question

If the straight lines `ax + by + c = 0` and `x cos(alpha) + y sin(alpha) = c` enclose an angle `pi/4` between them and meet the straight line `x sin(alpha) - y cos(alpha) = 0` in the same point between them, then?

A) `a^2 + b^2 = c^2`
B) `a^2 + b^2 = 2`
C) `a^2 + b^2 = 2c^2`
D)`a^2 + b^2 = 4`

Answer 1

`a^2+b^2=2`

Explanation:

From the lines

`L_1->ax+by+c=0`
`L_2->x cosalpha+ysinalpha +c=0`

we have

`a cos alpha+b sin alpha = sqrt(a^2+b^2) cos(pi/4)` or

`( a cos alpha+b sin alpha )^2= (a^2+b^2)/2`

but from

`{(x cosalpha+ysinalpha +c=0),(x sin alpha-y cos alpha=0):}`

the intersection point gives us `x=c cos alpha, y = c sin alpha`

and after substituting into

`ax+by+c=0 rArr a cosalpha + b sin alpha = -1`

then

`a^2+b^2=2`

Answer 2

Given lines are

`L_1->ax + by + c = 0`
`L_2->x cos(alpha) + y sin(alpha) = c`
`L_3->x sin(alpha) - y cos(alpha) = 0`

As per given condition above three given lines pass through a fixed point. `L_1` subtends an angle `pi/4` with `L_2` and `L_3` subtends an angle `pi/2` with `L_2` as the product of their slope `=-1`

Hence `L_1` is the bisector of the angle between `L_2 and L_3`. Here two possible orientations of `L_1` have been shown in the figure

Now equations of the angle bisectors between `L_2 and L_3`

`(xsinalpha -ycosalpha)/sqrt(sin^2alpha+cos^2alpha)=pm(xcosalpha+ysinalpha-c)/sqrt(cos^2alpha+sin^2alpha)`
`=>xsinalpha -ycosalpha=pm(xcosalpha+ysinalpha-c)`

Bisector -1
`B_1->`

`x(sinalpha-cosalpha)-y(sinalpha+cosalpha)+c=0`

Bisector 2

`B_2->`

`x(sinalpha+cosalpha)+y(sinalpha-cosalpha)-c=0`

Comparing `L_1 and B_1` we get

`a=sinalpha-cosalpha and b=-(sinalpha+cosalpha)`

So `a^2+b^2=2`

Comparing `L_1 and B_2` we get

`a=-(sinalpha+cosalpha )and b=-(sinalpha-cosalpha)`

So `a^2+b^2=2`

Answer 3

B) `a^2+b^2=2`

Explanation:

An alternative quick and dirty method to decide which of the given options is correct is to consider a particular example...

Let `alpha = pi/4` and `c = 3sqrt(2)`

Then the third straight line is:

`xsqrt(2)/2-ysqrt(2)/2 = 0`

which simplifies to `y=x`

The second straight line is:

`xsqrt(2)/2+ysqrt(2)/2 = 3sqrt(2)`

which simplifies to `x+y=6`

These intersect at `(3, 3)`

The first straight line passes through this intersection point and is horizontal or vertical. That is: `y=3` or `x=3`. Expressing these possibilities in the form `ax+by+c=0` we get:

`0x-sqrt(2)y+3sqrt(2) = 0`

or:

`-sqrt(2)x+0y+3sqrt(2) = 0`

In either case `a^2+b^2=2` and matches none of the other options.