In $\Delta XYZ$,$m\angle Y = 90^{\circ}$ and $\overline{YM}$ is an altitude to the hypotenuse $\overline{XZ}$. If $XM = 16ZM$,prove that $XY = 4YZ$.
(N/A) In $\Delta XYZ$,$\angle Y = 90^{\circ}$ and $\overline{YM} \perp \overline{XZ}$.
According to the Geometric Mean Theorem (or properties of similar triangles),in a right-angled triangle,the altitude to the hypotenuse creates two triangles similar to the original triangle and to each other.
Specifically,$\Delta XMY \sim \Delta YMZ$.
From the similarity $\Delta XMY \sim \Delta YMZ$,we have the ratio of corresponding sides:
$\frac{XY}{YZ} = \frac{XM}{YM} = \frac{YM}{ZM}$.
From $\frac{XY}{YZ} = \frac{YM}{ZM}$,we get $YM^2 = XY \cdot ZM$ (not directly useful here).
Alternatively,using the property of the altitude in a right triangle:
$XY^2 = XM \cdot XZ$ and $YZ^2 = ZM \cdot XZ$.
Dividing these two equations:
$\frac{XY^2}{YZ^2} = \frac{XM \cdot XZ}{ZM \cdot XZ} = \frac{XM}{ZM}$.
Given $XM = 16ZM$,we substitute this into the ratio:
$\frac{XY^2}{YZ^2} = \frac{16ZM}{ZM} = 16$.
Taking the square root of both sides:
$\frac{XY}{YZ} = \sqrt{16} = 4$.
Therefore,$XY = 4YZ$.
According to the Geometric Mean Theorem (or properties of similar triangles),in a right-angled triangle,the altitude to the hypotenuse creates two triangles similar to the original triangle and to each other.
Specifically,$\Delta XMY \sim \Delta YMZ$.
From the similarity $\Delta XMY \sim \Delta YMZ$,we have the ratio of corresponding sides:
$\frac{XY}{YZ} = \frac{XM}{YM} = \frac{YM}{ZM}$.
From $\frac{XY}{YZ} = \frac{YM}{ZM}$,we get $YM^2 = XY \cdot ZM$ (not directly useful here).
Alternatively,using the property of the altitude in a right triangle:
$XY^2 = XM \cdot XZ$ and $YZ^2 = ZM \cdot XZ$.
Dividing these two equations:
$\frac{XY^2}{YZ^2} = \frac{XM \cdot XZ}{ZM \cdot XZ} = \frac{XM}{ZM}$.
Given $XM = 16ZM$,we substitute this into the ratio:
$\frac{XY^2}{YZ^2} = \frac{16ZM}{ZM} = 16$.
Taking the square root of both sides:
$\frac{XY}{YZ} = \sqrt{16} = 4$.
Therefore,$XY = 4YZ$.
Explore More
Similar Questions
Two sides and the perimeter of one triangle are respectively three times the corresponding sides and the perimeter of the other triangle. Are the two triangles similar? Why?
Easy
View Solution$\Delta ABC$ and $\Delta PQR$ are equilateral triangles. If $\frac{AB}{PQ} = \frac{3}{2}$,prove that $4 \times \text{Area of } \Delta ABC = 9 \times \text{Area of } \Delta PQR$.
Medium
View SolutionIn $\Delta ABC$,$A-M-B$,$A-N-C$ and $\overline{MN} \parallel \overline{BC}$. If $AM = x-3$,$MB = 2x-7$,$AN = x+3$ and $NC = 2x+3$,find the value of $x$.
Medium
View SolutionIn $\Delta ABC$,$AB = AC$ and $m \angle A = 90^\circ$. If $BC = \sqrt{2} a$,then the area of $\Delta ABC$ is $\ldots \ldots \ldots \ldots$ $(a \in R^+)$.
Difficult
View SolutionIn the figure,if $DE \parallel BC,$ find the ratio of $\operatorname{ar}(ADE)$ and $\operatorname{ar}(DECB).$
Difficult
View SolutionVedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo