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its a conductor
The dissipation of charge comes from electron flow, regardless of how it was charged. The balance of electrons (which have a negative charge) to protons (which are positively charged) determine if the charge of the object. Protons are in the nucleus and will not leave the nucleus without some sort of nuclear reaction or decay. Also, if protons leave or are added to the nucleus, the element changes. Electrons orbit the nucleus, and are much easier to get to move from one atom to another. By rubbing two objects together, electrons can move from one of the objects to the other. If the objects are separated, then one of them has less electrons than before - this now has a net positive charge (there are more protons than electrons). The other object has a net negative charge (more electrons than protons). If a third object is touched, then the positively charged object may attract some electrons from this third object until the charge is neutralized. If the negative object touches another object, then it will give away the excess electrons so that it has a neutral charge. In both cases it is electron flow, just the direction of flow is different.
Potential energy
it is an object that gets a bump to its object (=
"Motion" or "Momentum"
its a conductor
Friction will give a positive charge to a neutral object by conduction. This is done by rubbing two different materials together.
You will get an electrostatic shock if you are electrically charged and you touch a good conductor of electricity.
I assume that 'charge' refers to the build up of static electricity. Walk across a nylon carpet and touch someone, and a spark of static electricity will give both of you a shock.
negative
An object gives up one or more protons to get a positively charged objects and absorbs one or more electrons to get a negatively charged objects. This happens when two objects are rubbed together (ex. when you rub your feet on the carpet to give some one a shock;rubbing balloon on one's hair)
Charging by friction - this is useful for charging insulators. If you rub one material with another (say, a plastic ruler with a piece of paper towel), electrons have a tendency to be transferred from one material to the other. For example, rubbing glass with silk or saran wrap generally leaves the glass with a positive charge; rubbing PVC rod with fur generally gives the rod a negative charge. Charging by conduction - useful for charging metals and other conductors. If a charged object touches a conductor, some charge will be transferred between the object and the conductor, charging the conductor with the same sign as the charge on the object. Charging by induction - also useful for charging metals and other conductors. Again, a charged object is used, but this time it is only brought close to the conductor, and does not touch it. If the conductor is connected to ground (ground is basically anything neutral that can give up electrons to, or take electrons from, an object), electrons will either flow on to it or away from it. When the ground connection is removed , the conductor will have a charge opposite in sign to that of the charged object.
There are various ways they charge, I know some charge a fixed cost based on what is required to do and some do charge a % on the spendings on the wedding. This % again would vary , so I suggest you touch base with some planners who should give you the correct info.
Nevrves are what give humans the sense of touch. Touch enables people to: (a) feel physical pleasure and stimulation (b) know that something is hot and thus potentially damaging to the body (c) know, in darkness, where an object is situated.
The dissipation of charge comes from electron flow, regardless of how it was charged. The balance of electrons (which have a negative charge) to protons (which are positively charged) determine if the charge of the object. Protons are in the nucleus and will not leave the nucleus without some sort of nuclear reaction or decay. Also, if protons leave or are added to the nucleus, the element changes. Electrons orbit the nucleus, and are much easier to get to move from one atom to another. By rubbing two objects together, electrons can move from one of the objects to the other. If the objects are separated, then one of them has less electrons than before - this now has a net positive charge (there are more protons than electrons). The other object has a net negative charge (more electrons than protons). If a third object is touched, then the positively charged object may attract some electrons from this third object until the charge is neutralized. If the negative object touches another object, then it will give away the excess electrons so that it has a neutral charge. In both cases it is electron flow, just the direction of flow is different.
You go to their pages and click "give an object" and select the object you want to give.
In the sentence, 'My aunt will give me a videotape.', the direct object is 'videotape', the indirect object is 'me'. will give -> videotape (to me)