Dividing an interval externally in a given ratio (1 Viewer)

ashbee28

New Member
Joined
Sep 14, 2011
Messages
3
Gender
Female
HSC
2013
I need some help with this question, I have no idea how to solve it :s

"The point P(5,7) divides the interval joining the point A(-1,1) and B(3,5) externally in the ratio k:1. Find the value of k."

How do I find k? What formula do I use?

Thanks :)
 

Timske

Sequential
Joined
Nov 23, 2011
Messages
794
Gender
Male
HSC
2012
Uni Grad
2016
Same formula plug in the values and solve for k.

<a href="http://www.codecogs.com/eqnedit.php?latex=P = \left ( \frac{mx_{2} - nx_{1}}{m-n} , \frac{my_{2} -ny_{1}}{m-n}\right )\\\\ (5 ,7) = \left ( \frac{k(3) -1(-1)}{k-1}, \frac{k(5)-1(1)}{k-1} \right )\\\\ (5.7) = \left ( \frac{3k @plus; 1}{k-1}, \frac{5k -1}{k-1} \right ) \\\\\therefore 5 = \frac{3k@plus;1}{k-1} ~and~ 7= \frac{5k-1}{k-1} \\\\ 5k-5=3k@plus;1\\\2k = 6 \\\ \therefore k = 3" target="_blank"><img src="http://latex.codecogs.com/gif.latex?P = \left ( \frac{mx_{2} - nx_{1}}{m-n} , \frac{my_{2} -ny_{1}}{m-n}\right )\\\\ (5 ,7) = \left ( \frac{k(3) -1(-1)}{k-1}, \frac{k(5)-1(1)}{k-1} \right )\\\\ (5.7) = \left ( \frac{3k + 1}{k-1}, \frac{5k -1}{k-1} \right ) \\\\\therefore 5 = \frac{3k+1}{k-1} ~and~ 7= \frac{5k-1}{k-1} \\\\ 5k-5=3k+1\\\2k = 6 \\\ \therefore k = 3" title="P = \left ( \frac{mx_{2} - nx_{1}}{m-n} , \frac{my_{2} -ny_{1}}{m-n}\right )\\\\ (5 ,7) = \left ( \frac{k(3) -1(-1)}{k-1}, \frac{k(5)-1(1)}{k-1} \right )\\\\ (5.7) = \left ( \frac{3k + 1}{k-1}, \frac{5k -1}{k-1} \right ) \\\\\therefore 5 = \frac{3k+1}{k-1} ~and~ 7= \frac{5k-1}{k-1} \\\\ 5k-5=3k+1\\\2k = 6 \\\ \therefore k = 3" /></a>
 
Last edited:

RealiseNothing

what is that?It is Cowpea
Joined
Jul 10, 2011
Messages
4,591
Location
Sydney
Gender
Male
HSC
2013
What about if they dont give you the 1? its two unknowns?
If they give you the ratio as m:n there are two ways.

1) You can use the formula and find the x co-ordinate and y co-ordinate, which will be in terms of m and n. Then solve these two simultaneously.

2) We can consider the y co-ordinates (or x, but in this case y is easier). Height of BP is 7-5=2 and height of AP is 7-1=6. So the ratio of AP:BP is 6:2 = 3:1. Therefore m=3 and n=1.

Method 2 works as the line ABP is made up of similar triangles, and so the ratio of the hypotenuses is the same as the ratio of the heights and widths.
 

Users Who Are Viewing This Thread (Users: 0, Guests: 1)

Top