When a sphere is cut with a vertical angled plane, the cross-section will be an ellipse. If the sphere is then cut by a horizontal plane, the cross-section will be a circle. Thus, the combination of these two cuts results in an elliptical cross-section from the angled cut and circular cross-sections from the horizontal cuts at various heights.
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.
The cross sections of a sphere can be circular or elliptical, depending on how the plane intersects the sphere. When a plane cuts through the center of the sphere, the cross section is a circle with the same radius as the sphere. If the plane intersects the sphere at an angle or does not pass through the center, the cross section will still be a circle, but its radius will be smaller than that of the sphere. Additionally, if the plane is tangent to the sphere, the cross section reduces to a single point.
The cross sections of a sphere can vary depending on the plane intersecting it. The most common cross sections include circles of varying diameters, which can range from a point (when the plane touches the sphere at a single point) to a maximum circle (when the plane passes through the center of the sphere). Other possible cross sections include ellipses if the plane is inclined but does not pass through the center, and in some cases, a line segment or point depending on the angle and position of the intersecting plane.
A circle, which could degenerate to a point.
any cross section of a sphere is a circle.
No, a pentagon has five angled sides. A sphere does not have any angles.
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.
A spheroid describes a flattened sphere shape- but to be precise, as applied to a cheese, it is an oblate spheroid since the vertical axis, not the horizontal axis, is shortened.
When a sphere is cut into cross sections, the shape formed is a circle. This is because all cross sections of a sphere will be circular in shape, regardless of the angle or position of the cut.
The sun appears to move across the sky from east to west, which is the horizontal movement due to the Earth's rotation. It reaches its highest point during midday, which is the closest it gets to a vertical position in the sky from our perspective.
A circle
a circle !
A circle, which could degenerate to a point.
This depends on which midpoint is being referenced. The world's vertical midpoint is the equator which cuts the sphere of the earth in half. The world's horizontal midpoint doesn't exist since the world is a ball, however, if you look at the earth from the top the horizontal midpoint is right at the north pole. Therefore the earth's three-dimensional midpoint would be in its core. But in terms of geographic locations, the regions on the earth's horizontal midpoint are the north and south pole, while the following countries are on the earth's equator (vertical midpoint):Africa:GabonCongoDemocratic Republic of the CongoUgandaKenyaSomaliaS. America:EcuadorColumbiaBrazilIndonesia
any cross section of a sphere is a circle.
A sphere is.
The isotropicantenna by definition has a radiation pattern that is a perfect sphere. The omni driectional antenna is characterized by a radiation pattern resembling a doughnut.