When an ebonite rod is rubbed with a woolen cloth or fur, the ebonite rod gains a negative charge. This is due to the transfer of electrons from the wool or fur to the ebonite rod, creating an excess of electrons on the rod and resulting in a negative charge.
The ebonite rod acquires a negative charge when rubbed with woolen cloth because electrons are transferred from the woolen cloth to the ebonite rod.
When an ebonite rod is rubbed with flannel, the rod becomes charged with static electricity due to the transfer of electrons between the two materials. The ebonite rod will acquire a negative charge, while the flannel will acquire a positive charge.
When an ebonite rod is rubbed with a piece of wool, electrons are transferred from the wool to the ebonite rod, causing the ebonite rod to become negatively charged and the wool to become positively charged. This transfer of electrons creates an electric charge imbalance between the two objects, leading to an attraction between them due to electrostatic forces.
The ebonite rod will acquire a negative charge, while the wool will acquire a positive charge through the process of triboelectric charging. This creates an attractive force between the two objects due to opposite charges, allowing the wool to stick to the ebonite rod.
When glass is rubbed, it tends to acquire a negative charge. This is due to the transfer of electrons from the material it is rubbed against to the glass, causing an imbalance in charge and resulting in a negative charge on the glass.
The ebonite rod acquires a negative charge when rubbed with woolen cloth because electrons are transferred from the woolen cloth to the ebonite rod.
When an ebonite rod is rubbed with silk, it acquires a negative charge. This occurs because electrons are transferred from the silk to the ebonite, resulting in an excess of electrons on the ebonite surface. Consequently, the ebonite rod becomes negatively charged, while the silk loses electrons and becomes positively charged.
When an ebonite rod is rubbed with flannel, the rod becomes charged with static electricity due to the transfer of electrons between the two materials. The ebonite rod will acquire a negative charge, while the flannel will acquire a positive charge.
When an ebonite rod is rubbed with a piece of wool, electrons are transferred from the wool to the ebonite rod, causing the ebonite rod to become negatively charged and the wool to become positively charged. This transfer of electrons creates an electric charge imbalance between the two objects, leading to an attraction between them due to electrostatic forces.
The ebonite rod will acquire a negative charge, while the wool will acquire a positive charge through the process of triboelectric charging. This creates an attractive force between the two objects due to opposite charges, allowing the wool to stick to the ebonite rod.
it attracts it
They will repel each other. When ebonite is rubbed, it becomes negatively charged, causing the pieces to repel due to the like charges on each surface.
When an ebonite rod is rubbed with fur, it becomes negatively charged due to the transfer of electrons from the fur to the ebonite. This negative charge creates an electric field around the rod. When a stream of water, which is polar, comes near the charged rod, the positive ends of the water molecules are attracted to the negatively charged rod, causing the stream to bend towards the rod. This phenomenon demonstrates the interaction between electric charges and polar molecules.
When an ebonite rod is rubbed with fur, electrons are transferred from the fur to the ebonite rod. This transfer occurs because the materials have different affinities for electrons, with ebonite having a greater tendency to attract electrons. As a result, the ebonite rod becomes negatively charged due to the excess of electrons, while the fur becomes positively charged due to the loss of electrons. This movement of electrons is what generates static electricity in the materials.
When glass is rubbed, it tends to acquire a negative charge. This is due to the transfer of electrons from the material it is rubbed against to the glass, causing an imbalance in charge and resulting in a negative charge on the glass.
When a balloon is rubbed on your hair, electrons are transferred from your hair to the balloon, giving the balloon a negative charge and your hair a positive charge. This results in an overall negative net charge on the balloon.
Rubbed plastic objects tend to hold onto their charge because they are insulators, meaning that they do not easily allow charge to flow. Rubbed metal objects, on the other hand, are conductors and can easily lose their charge as the electrons can move freely within the material and dissipate.