Solve 2 Pre Calc Probs: Slopes & Tangent to Circle

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In summary, to show that A(-3,-1), B(3,3), and C(-9,8) are vertices of a right triangle, we can use slopes to determine that the lines formed by connecting these points have a product of -1. For finding the equation of the line tangent to the circle x^2+y^2=25 at the point (3,-4), we can use the fact that the tangent line must be at a right angle to the slope from the center of the circle to (3,-4), and then solve for the value of m in the equation y=m(x-3)-4 that would result in only one solution for x in the equation x^2+(m(x-3)-
  • #1
Kurac
2
0
One
Use Slopes to show that A (-3,-1),B(3,3), and C(-9,8) are vertecies of a right triangle.
Two
Find an equation for the line tangent to the circle x^2+y^2=25 at the point (3,-4)

Thanks if anyone could do this that would be great.
 
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  • #2
For the second question the easiest way is to take the derivative, evaluate it at the point to find the slope and then write the equation of a line through that point with the slope you found.
 
  • #3
could you do that for me thanks?
 
  • #4
could you do that for me thanks?
Yes. But we won't.

The purpose of this forum is to help you with your homework. It is not to do your homework for you.
 
  • #5
These can be solved very easily using basic analytic geometry. No derivation or other nasty calculus required.

For the first one:

The slope can be found using for example:
k= (y2-y1)/(x2-x1)
where:
(x1,y1) is the left endpoints coordinates
(x2,y2) is the right endpoints coordinates

if k > 0 you have a rising line
if k < 0 you have declining line

When two lines are at right angels to each other:
k1 * k2 = -1
That is, the product of the slopes equals -1.

For the second:
The point (3,-4) is located on the circle. (Do you know why?)
Try to find the slope from the circles centre to (3,-4) and then use the fact that the tangent line has to be at a right angle to the slope (Why?) to calculate the slope of the tangent line.

If you know the slope and a point you should be able to calculate the equation for the line (You probably have a formula for it).
 
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  • #6
k= (y1-y2)/(x2-x1)is wrong
Slope is m = (y1-y2)/(x1-x2) not as you have given.
 
  • #7
gaganpreetsingh said:
k= (y1-y2)/(x2-x1)is wrong
Slope is m = (y1-y2)/(x1-x2) not as you have given.

Typo fixed.
 
  • #8
Since this is a pre-calc problem, for number 2 try this: any line through (3,-4) can be written y= m(x-3)-4. The line tangent to x2+ y2= 25 at (3,4) must intersect it only there. For what value of m does x2+ (m(x-3)-4)2= 25 have exactly one solution for x?
 

1. What is the slope of a line tangent to a circle?

The slope of a line tangent to a circle is equal to the negative reciprocal of the slope of the radius at the point of tangency. This means that the tangent line is perpendicular to the radius at the point of tangency.

2. How do you find the equation of a line tangent to a circle?

To find the equation of a line tangent to a circle, you first need to find the point of tangency. This can be done by finding the point where the slope of the line is equal to the negative reciprocal of the slope of the radius at that point. Then, use the point-slope form of a line to write the equation of the tangent line.

3. Can a line have multiple points of tangency with a circle?

Yes, a line can have multiple points of tangency with a circle. This can occur when the line is tangent to the circle at more than one point, or when the line is a secant and intersects the circle at two points.

4. How is the radius of a circle related to its tangent line?

The radius of a circle is perpendicular to the tangent line at the point of tangency. This means that the radius and tangent line form a right angle at the point of tangency.

5. Can you use the Pythagorean Theorem to find the length of the tangent line?

Yes, you can use the Pythagorean Theorem to find the length of the tangent line. This is because the tangent line, the radius, and the line segment connecting the point of tangency to the center of the circle form a right triangle, and the Pythagorean Theorem can be applied to find the length of the tangent line.

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