It is the distance from the centre to all points on the surface of a sphere with a radius of 1 foot.
volume of spherical = 4/3*Pi*Radius^3 = 4/3*3.14*32^3=137188
NO
You should clarify whether "1-foot circle" refers to a circle with a radius of 1 foot, a diameter of 1 foot, or a circumference of 1 foot. The circumference of a circle is equal to the diameter times pi (approximately 3.14).
A circle with a 1 foot 1 inch radius.
4 pie ft. 2
volume of spherical = 4/3*Pi*Radius^3 = 4/3*3.14*32^3=137188
Radius = 1/2 of the diameter = 1/2 foot = 6 inches
NO
The volume is 0.7854 cubic feet.
As Spherical Conductance = 4(pi)Eo r.If u need 1 F then calculate r(radius) u get 9 X 109 which is not possible 2 make..!!!ORThe capacitance of a conducting sphere of radius R is given byHence for the planet earth: about 709 µFThus for 1 F the radius is about 140 times greater than earth's radius.
dV=E.ds -> C=Q/V=Q/QK[1/r1 - 1/r2] = 4pi epsilon_o [1/r1 - 1/r2]
Radius is a sensible measure to use with a circular (or spherical) shape. England is neither.
The uncertainty in radius is approx 5.95%.
Given only one radius measure, the most likely shape is a sphere. A sphere with a 1 foot radius has a volume of 26.1 Imperial gallons (31.3 US gal). Given only one radius measure, the most likely shape is a sphere. A sphere with a 1 foot radius has a volume of 26.1 Imperial gallons (31.3 US gal). Given only one radius measure, the most likely shape is a sphere. A sphere with a 1 foot radius has a volume of 26.1 Imperial gallons (31.3 US gal). Given only one radius measure, the most likely shape is a sphere. A sphere with a 1 foot radius has a volume of 26.1 Imperial gallons (31.3 US gal).
It's about 2440 kilometers. Mercury is almost spherical, so the radius is about the same everywhere.
Yes
You can measure the diameter, then divide that by 2.