$ABCD$ is a trapezium in which $AB \parallel CD$ and $AD = BC$ (see Fig). Show that diagonal $AC =$ diagonal $BD$.
(A) Given: $ABCD$ is a trapezium with $AB \parallel CD$ and $AD = BC$.
Construction: Extend $AB$ and draw a line through $C$ parallel to $DA$ intersecting $AB$ produced at $E$.
Proof:
$1$. Since $AD \parallel CE$ (by construction) and $AE \parallel DC$ (given $AB \parallel DC$),$AECD$ is a parallelogram.
$2$. Therefore,$AD = CE$ (opposite sides of a parallelogram). Since $AD = BC$ (given),we have $BC = CE$.
$3$. In $\Delta BCE$,$BC = CE$,so $\angle CBE = \angle CEB$ (angles opposite to equal sides).
$4$. Also,$\angle ABC + \angle CBE = 180^\circ$ (linear pair). Since $\angle CEB = \angle CBE$,we have $\angle ABC + \angle CEB = 180^\circ$.
$5$. In $\Delta ABC$ and $\Delta BAD$:
- $AB = BA$ (common side)
- $AD = BC$ (given)
- $\angle DAB = \angle CBA$ (since $\angle D + \angle A = 180^\circ$ and $\angle C + \angle B = 180^\circ$,and $AD=BC$ implies an isosceles trapezium).
$6$. By $SAS$ congruence rule,$\Delta ABC \cong \Delta BAD$.
$7$. Therefore,$AC = BD$ (by $CPCT$).
Construction: Extend $AB$ and draw a line through $C$ parallel to $DA$ intersecting $AB$ produced at $E$.
Proof:
$1$. Since $AD \parallel CE$ (by construction) and $AE \parallel DC$ (given $AB \parallel DC$),$AECD$ is a parallelogram.
$2$. Therefore,$AD = CE$ (opposite sides of a parallelogram). Since $AD = BC$ (given),we have $BC = CE$.
$3$. In $\Delta BCE$,$BC = CE$,so $\angle CBE = \angle CEB$ (angles opposite to equal sides).
$4$. Also,$\angle ABC + \angle CBE = 180^\circ$ (linear pair). Since $\angle CEB = \angle CBE$,we have $\angle ABC + \angle CEB = 180^\circ$.
$5$. In $\Delta ABC$ and $\Delta BAD$:
- $AB = BA$ (common side)
- $AD = BC$ (given)
- $\angle DAB = \angle CBA$ (since $\angle D + \angle A = 180^\circ$ and $\angle C + \angle B = 180^\circ$,and $AD=BC$ implies an isosceles trapezium).
$6$. By $SAS$ congruence rule,$\Delta ABC \cong \Delta BAD$.
$7$. Therefore,$AC = BD$ (by $CPCT$).
Explore More
Similar Questions
$ABCD$ is a parallelogram and $AP$ and $CQ$ are perpendiculars from vertices $A$ and $C$ on diagonal $BD$ (see figure). Show that $AP = CQ$.
Medium
View Solution$ABCD$ is a rectangle and $P$,$Q$,$R$ and $S$ are mid-points of the sides $AB$,$BC$,$CD$ and $DA$ respectively. Show that the quadrilateral $PQRS$ is a rhombus.
Medium
View SolutionIn $\Delta ABC$ and $\Delta DEF$,$AB = DE$,$AB \parallel DE$,$BC = EF$ and $BC \parallel EF$. Vertices $A, B$ and $C$ are joined to vertices $D, E$ and $F$ respectively. Show that quadrilateral $ABED$ is a parallelogram.
Easy
View SolutionIn $\Delta ABC$ and $\Delta DEF$,$AB = DE$,$AB \parallel DE$,$BC = EF$ and $BC \parallel EF$. Vertices $A, B$ and $C$ are joined to vertices $D, E$ and $F$ respectively (see figure). Show that $AD \parallel CF$ and $AD = CF$.
Medium
View Solution$ABCD$ is a rhombus and $P, Q, R$ and $S$ are mid-points of the sides $AB, BC, CD$ and $DA$ respectively. Show that the quadrilateral $PQRS$ is a rectangle.
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