Class 9MathematicsAreas of Parallelograms and TrianglesMix Examples - Areas of Parallelograms and Triangles
DifficultIn $\Delta ABC,$ $P$ and $Q$ are the points of trisection of $BC$ (i.e.,points dividing $BC$ into three equal parts). Prove that,$\operatorname{ar}(ABP) = \operatorname{ar}(APQ) = \operatorname{ar}(AQC) = \frac{1}{3} \operatorname{ar}(ABC).$
(N/A) $P$ and $Q$ are the points of trisection of $BC$.
Therefore,$BP = PQ = QC$.
Since the triangles $\Delta ABP, \Delta APQ,$ and $\Delta AQC$ have equal bases $(BP = PQ = QC)$ and share the same vertex $A$,they have the same altitude with respect to these bases.
We know that the area of a triangle is given by $\frac{1}{2} \times \text{base} \times \text{height}$.
Since the bases are equal and the height is common,the areas of these three triangles are equal.
$\operatorname{ar}(ABP) = \operatorname{ar}(APQ) = \operatorname{ar}(AQC)$.
Also,the sum of the areas of these three triangles equals the area of $\Delta ABC$:
$\operatorname{ar}(ABP) + \operatorname{ar}(APQ) + \operatorname{ar}(AQC) = \operatorname{ar}(ABC)$.
Substituting the equal areas,we get:
$3 \times \operatorname{ar}(ABP) = \operatorname{ar}(ABC)$.
Therefore,$\operatorname{ar}(ABP) = \operatorname{ar}(APQ) = \operatorname{ar}(AQC) = \frac{1}{3} \operatorname{ar}(ABC).$
Therefore,$BP = PQ = QC$.
Since the triangles $\Delta ABP, \Delta APQ,$ and $\Delta AQC$ have equal bases $(BP = PQ = QC)$ and share the same vertex $A$,they have the same altitude with respect to these bases.
We know that the area of a triangle is given by $\frac{1}{2} \times \text{base} \times \text{height}$.
Since the bases are equal and the height is common,the areas of these three triangles are equal.
$\operatorname{ar}(ABP) = \operatorname{ar}(APQ) = \operatorname{ar}(AQC)$.
Also,the sum of the areas of these three triangles equals the area of $\Delta ABC$:
$\operatorname{ar}(ABP) + \operatorname{ar}(APQ) + \operatorname{ar}(AQC) = \operatorname{ar}(ABC)$.
Substituting the equal areas,we get:
$3 \times \operatorname{ar}(ABP) = \operatorname{ar}(ABC)$.
Therefore,$\operatorname{ar}(ABP) = \operatorname{ar}(APQ) = \operatorname{ar}(AQC) = \frac{1}{3} \operatorname{ar}(ABC).$
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Similar Questions
In $\Delta ABC$,$\angle B = 90^{\circ}$ and $BM$ is an altitude to the hypotenuse $AC$. If $AB = 12 \, cm$ and $BC = 16 \, cm$,then find the length of $BM$ in $cm$.
Medium
View SolutionIn $\Delta PQR$,$M$ and $N$ are the midpoints of $PQ$ and $PR$ respectively. $X$ is any point on $QR$. Prove that,$ar(MXN) = \frac{1}{4} ar(PQR)$.
Medium
View Solution$A$ point $E$ is taken on the side $BC$ of a parallelogram $ABCD$. $AE$ and $DC$ are produced to meet at $F$. Prove that $\operatorname{ar}(\triangle ADF) = \operatorname{ar}(ABFC)$.
Difficult
View SolutionIf $ar(PQRS) = 80 \, cm^2$ for a parallelogram $PQRS$,then $ar(PSR) = \dots \dots \dots cm^2$.
Medium
View Solution$(1)$ In $\Delta ABC$,$AD$ is an altitude. If $BC = 8 \text{ cm}$ and $AD = 5 \text{ cm}$,then $\text{ar}(\Delta ABC) = \dots \text{ cm}^2$.
$(2)$ $A$ $\dots$ of a triangle divides the triangle into two triangles of equal area.
$(2)$ $A$ $\dots$ of a triangle divides the triangle into two triangles of equal area.
Easy
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