No. It is not possible. Because as soon as balloon touches the metal charges would be conducted.
The balloon becomes negatively charged due to the transfer of electrons from the cloth. When the negatively charged balloon comes in contact with the metal strip, electrons will flow from the strip to the balloon, neutralizing the charge on the balloon. This process is known as static discharge.
The metal rod becomes negatively charged through a process called conduction. When a negatively charged object is brought near the metal rod, electrons on the surface of the rod are repelled, causing them to move to the end of the rod farthest from the negatively charged object. This redistribution of electrons creates a negative charge on the metal rod.
The electrons in the metal object are repelled by the negatively charged object and will move away from it. This redistribution of electrons can create a temporary separation of charges on the surface of the metal object.
Uncharged means that there are an equal number of protons and electrons. When the negative rod is held near the neutral metal ball, the electrons from the metal ball repel from the electrons on the rod bringing the protons closer to the rod causing the metal ball to be attracted to the negatively charged rod. It's called charging by induction.
No, a balloon filled with static electricity will not stick to metal if rubbed against your head. The static charge on the balloon and your head would not be strong enough to hold the balloon to the metal.
No, a negatively charged balloon would stick more easily to a metal wall compared to a wooden wall due to the higher conductivity of metals. The charges on the balloon induce opposite charges on the metal surface, creating a stronger attractive force.
The balloon becomes negatively charged due to the transfer of electrons from the cloth. When the negatively charged balloon comes in contact with the metal strip, electrons will flow from the strip to the balloon, neutralizing the charge on the balloon. This process is known as static discharge.
Opposite charges attract each other. It makes no difference what kind of objects happen to be carrying the charges.
An Alpha particle
The metal rod becomes negatively charged through a process called conduction. When a negatively charged object is brought near the metal rod, electrons on the surface of the rod are repelled, causing them to move to the end of the rod farthest from the negatively charged object. This redistribution of electrons creates a negative charge on the metal rod.
The electrons in the metal object are repelled by the negatively charged object and will move away from it. This redistribution of electrons can create a temporary separation of charges on the surface of the metal object.
Since a cathode ray is a stream of electrons, and since electrons are negatively charged, a positively charged metal plate would cause a deflection in the cathode ray towards the plate.
Monatomic ions of metals are positively charged and monatomic ions of nonmetals are negatively charged.
Uncharged means that there are an equal number of protons and electrons. When the negative rod is held near the neutral metal ball, the electrons from the metal ball repel from the electrons on the rod bringing the protons closer to the rod causing the metal ball to be attracted to the negatively charged rod. It's called charging by induction.
A metal and a nonmetal typically form an ionic bond. The metal atom donates electrons to the nonmetal atom, resulting in the formation of positively charged metal ions and negatively charged nonmetal ions that are held together by electrostatic attraction.
No, a balloon filled with static electricity will not stick to metal if rubbed against your head. The static charge on the balloon and your head would not be strong enough to hold the balloon to the metal.
LiBr would be classified as ionic because it is formed between a metal (Li) and a non-metal (Br). Ionic bonds are formed when there is a transfer of electrons from the metal to the non-metal, resulting in the formation of positively charged cations (Li+) and negatively charged anions (Br-).