False.
It is its square area which is found by pi*radius squared
You count the inside squares of the figure.
No. Just the opposite.It's easy to remember: INscribed is INside
In a close figure it is the set of points inside the figure.
The center.
That's because "perimeter" means the distance around something - not the spaces inside. If you count squares inside a figure, you are finding the AREA, not the PERIMETER.
That's called the center
False
False.
spatial order
spatial order
Because of the definition of what "perimeter" means. It's the distance around the figure ... the distance an ant has to walk to get back to where he started, if he stays on the line. The ant doesn't know or care how many spaces are inside the figure or what size they are. He's simply staying on the line all the way, watching his pedometer and keeping track of how far he has to walk to arrive at "GO" .
The perpendicular distance from the inside of the baseline to the center of the goal or basket is 5 foot 3 inches.
It is its square area which is found by pi*radius squared
You count the inside squares of the figure.
It looks to me likeAcceleration of gravity = G M / R2The 'M' contributing to the acceleration is the 'M' inside the 'R' of interest. If the earth is homogeneous,then the 'M' is proportional to the volume inside the 'R', which varies as R3 .So the acceleration is proportional to [ M / R2 ], in turn proportional to [ R3 / R2 ] = R.Again, that's assuming the earth is homogeneous, which we know it isn't. But for a uniform,homogeneous 'planet', the acceleration of gravity varies directly with the distance from the center.