When rectangles are inscribed, they lie entirely inside the area you're calculating. They never cross over the curve that bounds the area. Circumscribed rectangles cross over the curve and lie partially outside of the area. Circumscribed rectangles always yield a larger area than inscribed rectangles.
What is the difference between an inscribed and a circumscribed shape?
Inscribed has the vertices n the circle.Circumscribed has the sides tangent to the circle.
== == Inscribed is a polygon inside a circle with all points on a given point in the circle. Circumscribed is a circle inside a polygon with any given point touching just one point on the polygon. Hope this helped.
Exactly one circle can be inscribed in a given triangle.Many triangular shapes can be inscribed in a given circle.
I can only think of one myself, it explains the gist of the question. In my experience, INSCRIBED shapes or figures lie INSIDE of something else; while CIRCUMSCRIBED figures are the OUTSIDE shape in the same instance. As they are interchangable depending on which of the shape(s) you're discussing, it is also not necessary (though often assumed) that one of the shapes be a circle.
What is the difference between an inscribed and a circumscribed shape?
Inscribed has the vertices n the circle.Circumscribed has the sides tangent to the circle.
== == Inscribed is a polygon inside a circle with all points on a given point in the circle. Circumscribed is a circle inside a polygon with any given point touching just one point on the polygon. Hope this helped.
The approximate area of the circle lies between the areas of the circumscribed and the inscribed hexagons.
Exactly one circle can be inscribed in a given triangle.Many triangular shapes can be inscribed in a given circle.
I can only think of one myself, it explains the gist of the question. In my experience, INSCRIBED shapes or figures lie INSIDE of something else; while CIRCUMSCRIBED figures are the OUTSIDE shape in the same instance. As they are interchangable depending on which of the shape(s) you're discussing, it is also not necessary (though often assumed) that one of the shapes be a circle.
integration is reverse of differentiation and vice versa
Segregation is the enforced separation of different racial or ethnic groups, often leading to unequal treatment and opportunities. Integration, on the other hand, aims to bring together these groups in a unified setting, promoting equality and inclusivity. Basically, segregation divides while integration unites.
Diversification is when someone's tight clit is sniffed and integration is when the clit is jizzed on
Segregation refers to the separation of different groups based on race, ethnicity, or other characteristics, often leading to inequality and discrimination. Integration, on the other hand, involves bringing together diverse groups to promote equality and inclusivity in society.
Virtual Integration is to have control on the departments or businesses in the chain without owning them.where, Vertical Integration is like owning the departments or businesses in the chain.
In all but very exceptional cases there is no difference.