Yes, spheres do have nets!
They are made out of 12 curved shapes (ellipses) called gores.
Here is a link so you can see what it looks like:
gwydir.demon.co.uk/jo/solid/sphere.gif
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It depends on the figure. For example, you cannot draw a net for a sphere, an ellisoid or a torus.
Since a sphere is round it is a shape without a face.
A sphere has no corners, it is a 3-D circle.
It is incorrect to say that sphere has lateral area. First sphere do not have sides like other geometric figure. In fact a line or plane can intersect the surface of a sphere in just one point. Sphere has no lateral side. It is enough to say surface area of sphere than lateral surface area of the sphere.
Sphere.
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Yes because the surface area of a sphere is 4*pi*radius squared
It depends on the figure. For example, you cannot draw a net for a sphere, an ellisoid or a torus.
Since a sphere has an infinite number of side and angles, we can easily conclude that the new drawing for a sphere is a simple circle. The other new drawings do not have an infinite number of sides. Hence, They look 3D
Yes they are made out of 12 curved shapes (ellipses) called gores.
electric field inside the conducting sphere is ZER0..! because their are equivalent charges all around the sphere which makes the net force zero hence we can say that the electric field is also zero.!
When fully submerged on earth, yes. The net buoyancy force will be equal to the weight of the water displaced minus the weight of the object doing the displacing. Because the volume of water displaced by the water will be the same, and presumably have the same weight when the objects are both fully submerged, and the sphere of empty vacuum weighs less than the sphere of air, there will be a greater net upward buoyancy force on each object on earth.
The list of colours that end with sphere (the same with geometric shapes, animal shapes, plant shapes, balloons, etc.) are: Red sphere Black sphere Blue sphere Yellow sphere Pink sphere Silver sphere Green sphere Purple sphere Orange sphere Crimson sphere Navy sphere White sphere Gold sphere Teal sphere Brown sphere Indigo sphere Saffron sphere Amethyst sphere Vermilion sphere Chartreuse sphere Magenta sphere Viridian sphere Burgundy sphere Powder blue sphere Scarlet sphere Cyan sphere Azure sphere Lavender sphere Gray sphere Beige sphere Cerulean sphere Slate sphere Cobalt sphere Gunmetal sphere Copper sphere Bronze sphere Khaki sphere Citrine sphere Maroon sphere Olive sphere Peach sphere Cream sphere Sangria sphere Plum sphere Emerald sphere Cerise sphere Mauve sphere Moccasin sphere Aquamarine sphere Pearl sphere Turquoise sphere Platinum sphere Tan sphere Bittersweet sphere Periwinkle sphere Sapphire sphere Fuchsia sphere Dark green sphere Mahogany sphere Sea green sphere Claret sphere Lime sphere Amber sphere Ecru sphere Taupe sphere Tawny sphere Lilac sphere Ochre sphere Sepia sphere Celadon sphere Rust sphere Orchid sphere Ash gray sphere Steel blue sphere Sky blue sphere Burnt orange sphere Brick red sphere Caramel sphere Marigold sphere Burnt sienna sphere Verdigris sphere Indochine sphere Carmine sphere Linen sphere Goldenrod sphere Butterscotch sphere Dark gray sphere Harlequin green sphere Amaranth sphere Ultramarine sphere Royal blue sphere Garnet sphere Ebony sphere Ivory sphere Thistle sphere Jade green sphere Auburn sphere Sienna sphere Umber sphere Cadet blue sphere Dark brown sphere Orange peel sphere Salmon sphere Wisteria sphere Persimmon sphere Apricot sphere Brass sphere Ruby sphere Mint sphere Forest green sphere Aubergine sphere Hazel sphere Topaz sphere Bisque sphere Spring green sphere Rainbow sphere
When the positively charged rod comes into contact with the Neutral sphere, electrons will flow onto the rod to equalize the deficit of charge on the rod leaving the net charge of the system at zero because the potential between rod and sphere has been equalized. The Sphere itself will have a net positive charge now due to the transfer of electrons onto the rod.
Since a sphere is round it is a shape without a face.
a sphere
The net consists of a series of vertical lenticular (lens-shaped) sections that are joined together at their middle.The lenticular sections are flattened slices of the surface of the sphere from "north pole" to "south pole", taking in a few longitudes each, joined together along the "equator".See link for an illustration.The net consists of a series of vertical lenticular (lens-shaped) sections that are joined together at their middle.The lenticular sections are flattened slices of the surface of the sphere from "north pole" to "south pole", taking in a few longitudes each, joined together along the "equator".See link for an illustration.The net consists of a series of vertical lenticular (lens-shaped) sections that are joined together at their middle.The lenticular sections are flattened slices of the surface of the sphere from "north pole" to "south pole", taking in a few longitudes each, joined together along the "equator".See link for an illustration.The net consists of a series of vertical lenticular (lens-shaped) sections that are joined together at their middle.The lenticular sections are flattened slices of the surface of the sphere from "north pole" to "south pole", taking in a few longitudes each, joined together along the "equator".See link for an illustration.