Yes, a hollow metal sphere is electrically neutral because the charges inside cancel each other out, resulting in a net charge of zero.
No, a hollow sphere can hold a larger electric charge compared to a solid sphere of the same diameter because the charge resides on the outer surface in both cases. In a hollow sphere, the charge distributes uniformly on the outer surface, allowing it to hold more charge without experiencing as much repulsion between like charges as a solid sphere.
No, the charge of a hollow sphere and a solid sphere of the same diameter will be the same as long as they are both made of the same material. In both cases, the charge resides on the outer surface of the sphere due to electrostatic repulsion.
A Van de Graaff generator works by using a moving belt to accumulate and transfer electric charge to a large hollow metal sphere, creating a high voltage. The charge is then stored on the sphere, leading to a potential difference relative to ground. This stored charge can be used for various experiments or demonstrations in physics.
The net static electric charge on the metal sphere would be +3 elementary charges. This means the sphere has an excess of 3 positive charges.
A metal sphere of radius 1 centimeter will not hold a charge of 1 coulomb. The electric field generated from the metal sphere of radiusÊat 1 centimeter will break down and neutralize any charges.
No, a hollow sphere can hold a larger electric charge compared to a solid sphere of the same diameter because the charge resides on the outer surface in both cases. In a hollow sphere, the charge distributes uniformly on the outer surface, allowing it to hold more charge without experiencing as much repulsion between like charges as a solid sphere.
There's a special effect in a hollow sphere of metal, called a 'Faraday Sphere', where there isn't any electricity in a sphere. Faraday, the guy who came up with rules on the electricity that we now use today, first found out that a hollow sphere has no electricity in it. So in a storm you should be safe in a closed car as long as it is spherical...
No, the charge of a hollow sphere and a solid sphere of the same diameter will be the same as long as they are both made of the same material. In both cases, the charge resides on the outer surface of the sphere due to electrostatic repulsion.
Silver is the most electrically conductive metal.
The charge all resides on the surface of the sphere, whether or not there's anything inside the surface. In principle, there's no limit on the amount of charge that can be jammed onto the sphere. The only limit is a practical one, that is, how much charge you can move and transfer to the sphere before it starts arcing back to the machinery or the support that's holding it.
The electrons will distribute evenly on the surface of the sphere due to their mutual repulsion, creating an electric field that is strongest at the surface and zero inside the sphere. This configuration is stable and the electrons will remain on the sphere as long as there is no external influence.
The answer to your question is Iron or known as Fe on the periodic table. Hope that helped you out!
This is a sphere made from a metal.
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A converter having electrically heatable strips connected in an electrical circuit, and intertwined with non-electricvally heated thin metal strips, having an electrical connection, or anchor, from the electrically heatable thin metal strips to the non-electrically heated thin metal strips, whereby the potential difference between the electrically heatable strips non-electrically heatable thin metal strips is reduced.
The counter ion in a complex helps balance the charge of the complex by providing an opposite charge to the central metal ion or ligands. It contributes to the overall stability of the complex by ensuring that the complex remains electrically neutral. The counter ion also affects the solubility and reactivity of the complex in solution.
Ionic bonds. All chemical compounds are electrically neutral, in that they do not posess an overall electrstaic charge. Crystalline solids could be either ionic or covalent. The most likely ones to be encountered in a laboratory or in the home are ionic solids. Most ionic compounds are crystalline solids at normal temperature. Ionic solids are generally the union of a metal and a non-metal. Examples include salt (sodium chloride), fluorite (calcium fluoride), and pyrite (iron sulfide). Ionic compounds are electrically neutral because the charges of their ions cancel out. So the answer is ionic bonds.