The charged object will induce opposite charges in the electrically neutral surface due to electrostatic forces. This will result in the redistribution of charges on the surface without physically transferring any charge to it.
If a charged balloon touched a neutral balloon, electrons from the charged balloon would be transferred to the neutral balloon, causing the neutral balloon to become negatively charged. This is due to the principle of electrostatic induction.
When a charged balloon is allowed to touch a neutral balloon, some of the charge from the charged balloon will transfer to the neutral balloon. This transfer of charge will cause both balloons to become slightly charged.
When a charged object is placed near a neutral object, the charged object can induce a charge separation in the neutral object, causing it to become polarized. This can result in an attraction or repulsion between the two objects depending on the type of charges involved.
If a negatively charged rod touches a neutral electroscope, electrons will flow from the rod to the electroscope, causing the electroscope to become negatively charged. The leaves of the electroscope will repel each other, indicating a charge has been introduced.
When a negatively charged rod touches a neutral electroscope, electrons transfer from the rod to the electroscope, causing the electroscope to become negatively charged. This results in the leaves of the electroscope repelling each other and spreading apart, indicating the presence of an excess negative charge.
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If a charged balloon touched a neutral balloon, electrons from the charged balloon would be transferred to the neutral balloon, causing the neutral balloon to become negatively charged. This is due to the principle of electrostatic induction.
When a charged balloon is allowed to touch a neutral balloon, some of the charge from the charged balloon will transfer to the neutral balloon. This transfer of charge will cause both balloons to become slightly charged.
The neutral object will probably get an induced polarity.
Yes, a charged atom can attract a neutral atom through electrostatic forces. The charged atom will create an electric field that can exert a force on the nearby neutral atom, causing it to be attracted towards the charged atom.
When a charged object is placed near a neutral object, the charged object can induce a charge separation in the neutral object, causing it to become polarized. This can result in an attraction or repulsion between the two objects depending on the type of charges involved.
Some neutral objects have a weak dipole force where electron distribution is random across the whole object, and at any one given time, one side may be slightly more positive than the other. This attraction is very weak but it happens frequently especially in solutions.
If a negatively charged rod touches a neutral electroscope, electrons will flow from the rod to the electroscope, causing the electroscope to become negatively charged. The leaves of the electroscope will repel each other, indicating a charge has been introduced.
The negatively charged object will attract electrons in the neutral conductor towards it, causing the electrons to redistribute within the conductor. This redistribution will result in the end of the conductor closest to the negatively charged object becoming slightly negatively charged, while the end farthest from it becomes slightly positively charged. This induces a temporary dipole moment in the neutral conductor.
When a negatively charged rod touches a neutral electroscope, electrons transfer from the rod to the electroscope, causing the electroscope to become negatively charged. This results in the leaves of the electroscope repelling each other and spreading apart, indicating the presence of an excess negative charge.
Objects become electrically charged when there is an imbalance of positive and negative charges on the object's surface. This imbalance can occur through friction, conduction, or induction, leading to the object gaining a net positive or negative charge.
If you touch the knob of a positively charged electroscope with a negatively charged object, the excess electrons from the negatively charged object will flow to the electroscope, neutralizing the positive charge. The electroscope will become neutral or slightly negatively charged as a result.