Math, asked by Sweetybillionare, 1 year ago

anyone knows how to do locus equation

Answers

Answered by abhishek00001
1
A formal(ish) definition: “The equation of a curve is the relation which exists between the coordinates of all points on the curve, and which does not hold for any point not on the curve”.

Let us try to understand what this means.

If I write an equation, say x + y = 4 and tell you that this represents a line which looks like this…



Fig. 1: Equation of a curve

… it means that if you take any random point lying on this line, take its x-coordinate and add it to the y-coordinate, you’ll always get 4 as the sum. (because the equation says x + y = 4).

And if you take any other point not on the line, and add its coordinates together, you’ll never get the sum as 4. (For now, don’t worry about why x + y = 4 should look like a line, and not something different, e.g. a circle. We’ll see that later.)

Thus, finding out the equation to a locus means finding out the relation that holds true between the x and y coordinates of all points on the locus.

Lets find out equations to all the loci we covered previously.

The first one was to find out the locus of the point moving on a plane (your screen) which is at a fixed distance from a given line (the bottom edge). Let the given line be the X axis, and P(x, y) be the moving point. It is given that the point is at a fixed distance, 5 from the X axis. Now distance of a point from the X axis is its y-coordinate, isn’t it? So we can write y = 5.

Well.. that’s it ! We have the equation representing the locus in the first example. Going in the reverse order, the equation y = 5 is the equation of the locus / curve, every point on which has the y-coordinate as 5, or every point being at a distance of 5 units from the X axis (the condition which was initially given).



Fig. 2: Equation of the line

There is also another possibility of y = -5, also a line parallel to the X axis, at a distance of 5 units, but lying below the axis.

Now the second example.

Here we had to find the locus of a point which is at a fixed distance 4 from the origin, which came out to be a circle.

To find the equation, the first step is to convert the given condition into mathematical form, using the formulas we have.

Let P(x, y) be the moving point. It is given that OP = 4 (where O is the origin). How can we convert this into mathematical form?

OP is the distance between O and P which can be written as (x−0)2+(y−0)2−−−−−−−−−−−−−−−√

Hence, we can write (x−0)2+(y−0)2−−−−−−−−−−−−−−−√=4 or x2 + y2 = 16. The required equation to the locus under the given conditions is x2 + y2 = 16.



Fig. 3: Equation of the circle

Last one.

In this one, we were to find out the locus of a point such that it is equidistant from two fixed points, which was the perpendicular bisector of the line joining the points.

Now to the equation. Let the two fixed points be A(1, 1) and B(2, 4), and P(x, y) be the moving point. According to the condition PA=PB. This can be written as (x−1)2+(y−1)2−−−−−−−−−−−−−−−√=(x−2)2+(y−4)2−−−−−−−−−−−−−−−√. After squaring both sides and simplifying, we get the equation as x + 3y = 9.



Fig. 4: Equation of the perpendicular bisector

Lesson Summary

The equation of a curve is the relation that holds true between the coordinates of all the points on the curve, and no other point except that on the curve.

To find the equation to a locus, we start by converting the given conditions to mathematical equation


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