a hemisphere is cut out from one face of a cubical wooden block such that the diameter of the hemisphere is equal to the side of the cube. determine the total surface area of the remaining solid
Answers
Step-by-step explanation:
consider the diagram shown below.
It is given that a hemisphere of the radius 1/2 is
cut out from the top face of the cuboid wooden block
Therefore,Surface are of the remaining solid
=Surface area of the cuboidal box whose each adge is of lenght 1-Area of this top
of the hemispherical part
Answer:
a²( 6 + π/4 ) sq. units
Step-by-step explanation:
Let the edge of the cubical wooden block be ' a' units
Total Surface area of the cubical wooden block = 6a² sq. units
Hemisphere is cut out from one face of a cubical wooden block such that diameter of it is equal to edge of the cubical wooden block
Diameter of the hemisphere cut out = ' a ' units
Radius of the hemisphere cut out r = ' a/2 ' units
To determine the total surface area of the remaining solid we need to subtract the area of circular region formed when the hemisphere is cut out and then add the curved surface area of the hemisphere
Area of circular region formed when hemisphere is cut out = πr² = π × ( a/2 )² = π × a²/4 = πa²/4 sq. units
Curved surface area of the hemisphere cut out = 2πr² = 2π × ( a/2 )² = 2πa²/4 sq. units
Total surface area of the remaining solid = Total surface area of the wooden cubical block - Area of circular region formed when hemisphere is cut out + Curved surface area of the hemisphere cut out
= 6a² - πa²/4 + 2πa²/4
= 6a² + πa²/4
= a²( 6 + π/4 ) sq. units