Applications of quadrilaterals in our daily life
Answers
A lot of quadrilaterals are used in our daily life. In fact, many of the things we see in our daily life are resembling the regular mathematical shapes like circle, quadrilateral, triangle, etc. Some amount of fillet or chamfer is given to those mathematical shapes and the products are manufactured.
At first let’s understand what quadrilateral is.
Quadrilateral is a four-sided polygon having four angles. That includes square, parallelogram, trapezium, kite, etc within it.
Now let’s see where quadrilaterals are used.
In electronic devices like mobiles, laptops, computers, TVs, etc.In stationery items like books, copies, chart-papers, etc.
The list goes countless as we can’t imagine the world without quadrilaterals. Wherever you see four sides, quadrilateral is involved there.
From the laptop key I am pressing to the monitor screen I am viewing, quadrilaterals are involved. The laptop which is in rectangle shape sitting on my square-shaped table requires rectangle shaped floor to stand. Pillars supporting floor and roof are not left with quadrilaterals not being involved.
Answer:
Lets start with what is quadrilateral:
a quadrilateral is a polygon with four edges (or sides) and four vertices or corners.
By above definition, square , rectangle, trapazoid, kite, rhombus, rhomboid, etc i.e every shape you can imagine with 4 sides is a quadrilaterals.
Everything from blueprints (of homes) , doors, window, swimming pool, boxes, football ground, paper etc. is generally made up of such quadrilaterals.
Now let’s see where quadrilaterals are used.
In electronic devices like mobiles, laptops, computers, TVs, etc.
In stationery items like books, copies, chart-papers, etc.
The list goes countless as we can’t imagine the world without quadrilaterals. Wherever you see four sides, quadrilateral is involved there.
From the laptop key I am pressing to the monitor screen I am viewing, quadrilaterals are involved. The laptop which is in rectangle shape sitting on my square-shaped table requires rectangle shaped floor to stand. Pillars supporting floor and roof are not left with quadrilaterals not being involved.
Step-by-step explanation: