conduction
The transfer of charge when electrons move from a charged object to another object by direct contact is called conduction.
Conduction involves the transfer of heat or electricity through direct contact between objects. It does not involve the transfer of electrons from a charged object to another by rubbing. Rubbing objects can create static electricity, where electrons are transferred due to friction, but this is not conduction.
When electrons move from one object to another through direct contact, the object that loses electrons becomes positively charged, while the object that gains electrons becomes negatively charged. This transfer of electrons results in an electrostatic force between the two objects, leading to attraction or repulsion depending on the charge of each object.
When something is charged by friction, electrons are transferred between the two objects involved in the frictional contact. This transfer of electrons causes one object to become positively charged (loses electrons) and the other to become negatively charged (gains electrons).
When a charged object touches another object. Electrons can be transferred through friction. Electrons can also be transferred through contact and conduction. You can charge a neutral object by contact with a charged object. Charging by contact happens when electrons move from one object to a neutral object.
Objects become charged when electrons move from object to another
Both conduction and induction involve a movement of electrons. Conduction is the transfer of electrons from a charged object to another object by direct contact. Induction does not involve direct contact. Instead, induction is the movement of electrons from one part of an object to another as a result of the electric field of the second object.
Objects become charged when electrons move from object to another
The rearrangement of electrons on an uncharged object without direct contact with a charged object is known as electrostatic induction. This occurs when a charged object is brought near the uncharged object, causing the electrons in the uncharged object to redistribute and create regions of positive and negative charge without physical contact.
When a charged object touches another object. Electrons can be transferred through friction. Electrons can also be transferred through contact and conduction. You can charge a neutral object by contact with a charged object. Charging by contact happens when electrons move from one object to a neutral object.
Some ways in which an object can become charged are friction, contact and induction.
It becomes charged. (negatively)
Yes, because the neutral conductor will transfer its electrons to the postitively charged conductor.
Materials can become electrically charged by gaining or losing electrons. When an object gains electrons, it becomes negatively charged, and when it loses electrons, it becomes positively charged. This imbalance of electrons creates an electric charge on the material.
gained electrons
Assuming both were neutral to start, an object which is charged by contact with another object would have the opposite charge to the object with which the charge transfer occurred as charge is a conserved property. An object that loses electrons to another object would become more positive while and object which gains electrons would become more negatively charged. it can be negative, since the electrons are the only ones to move from a charge to the object positive charge does NOT move thus once it gave the electrons, the thing will get a positive charge while the object will be a negative charge pretty much i said it in easier words from the paragraph above ^^^^^^^^^^^^
they will loose electrons
When the positively charged rod comes into contact with the Neutral sphere, electrons will flow onto the rod to equalize the deficit of charge on the rod leaving the net charge of the system at zero because the potential between rod and sphere has been equalized. The Sphere itself will have a net positive charge now due to the transfer of electrons onto the rod.