Question

How do you write an equation of a ellipse with vertices (0,2), (4,2), and endpoints of the minor axis (2,3), (2,1)?

Answer 1

`(x-2)^2/4+(y-2)^2/1=1`

Explanation:

Here we have an ellipse with vertices at `(0,2) and (4,2)` and the minor axis between `(2,3) and (2,1)`

The equation of an ellipse centred at the origin with major axis length `(2a)` and minor axis length `(2b)` is:

`x^2/a^2 + y^2/b^2 =1`

Here we have an ellipse with major axis on `y=2`
(Since the vertices are both on `y=2`)

And minor axis on `x=2`
(Since the endpoints of the minor axis are both on `x=2`)

Hence, the centre of the ellipse is at `(2,2)`

From the above we can calculate the length of the major axis to be:
`4-0 = 4`

`-> a=4/2 =2`

and the length of the minor axis to be:
`3-1 =2`

`-> b= 2/2 =1`

Applying the shifts of the centre from `(0,0)` to `(2,2)` our standard equation becomes:

`(x-2)^2/a^2 + (y-2)^2/b^2 = 1`

Substituting for `a and b` above

`-> (x-2)^2/2^2 + (y-2)^2/1^2 =1`

Hence, the equation of our ellipse is: `(x-2)^2/4 + (y-2)^2/1 = 1`

We can see this ellipse in the graphic below that satisfies the given conditions.

graph{(x-2)^2/4+(y-2)^2/1=1 [-3.26, 7.84, -0.51, 5.04]}