Question 1104881
You could calculate the shaded area as
the sum of the areas of the two small semicircles,
minus the ate of the large semicircle,
plus the area of the triangle.
The area of the triangle is
{{{base*height/2=55*48/2=1320}}}
because AB and AC are perpendicular,
so we can take one as the base of the triangle,
and the other one would be the height.
We could calculate the areas of the semicircles,
but we do not need to, because we know ABC is a right triangle.
The Pythagorean theorem says that the sum of
the areas of the squares built on the legs of a right triangle
are equal to the area of the square built on the hypotenuse.
It works for semicircles too,
so as you add the areas of the two smaller semicircles,
you get the area of the large one,
and when you subtract it you get zero,
Just before you add the area of the triangle.
In the end, the shaded area is equal to the area of the triangle:
{{{highlight(1320)}}} area units.
If you have to show your work,
and the teacher insists on calculating the area of the semicircles,
the area of a circle is {{{pi*radius^2=pi*diameter^2/4}}} .
So, the area of a semicircle is {{{pi*diameter^2/8}}} .
For the small semicircles the areas are
{{{pi*48^2/8}}} and {{{pi*55^2/8}}} .
For the large semicircles, the area is
{{{pi*73^2/8}}} .
The area of the shaded region is
{{{pi*48^2/8+pi*55^2/8-pi*73^2/8+1320=(pi/8)*(48^2+55^2-73^2)+1320=(pi/8)*0+1320=1320}}}
Of course, {{{48^2+55^2=73^2}}} , because ABC is a right triangle.