The object will become positive
An uncharged object can become positively charged through a process called charging by induction. This occurs when a charged object is brought close to the uncharged object, causing a redistribution of electrons. Electrons are repelled by the like charge, leaving the uncharged object with a net positive charge.
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.
The rearrangement of electrons on an uncharged object without direct contact with a charged object can occur through induction. This process involves bringing a charged object near the uncharged object, which causes a temporary separation of charge within the uncharged object. The closer charged object induces a redistribution of electrons within the uncharged object, resulting in one side becoming more negatively charged while the other becomes more positively charged.
An uncharged object can become charged by gaining or losing electrons. Electrons are negatively charged particles that can be transferred from one object to another through friction, contact, or induction. When an object gains or loses electrons, it becomes charged with a positive or negative charge, respectively.
When an object is charged by conduction, it comes into direct contact with a charged object, causing electrons to transfer between the two objects. If the charged object is negatively charged, electrons will flow from the charged object to the uncharged object, resulting in the uncharged object becoming negatively charged as well.
It becomes charged. (negatively)
An uncharged object can become positively charged through a process called charging by induction. This occurs when a charged object is brought close to the uncharged object, causing a redistribution of electrons. Electrons are repelled by the like charge, leaving the uncharged object with a net positive charge.
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.
The rearrangement of electrons on an uncharged object without direct contact with a charged object can occur through induction. This process involves bringing a charged object near the uncharged object, which causes a temporary separation of charge within the uncharged object. The closer charged object induces a redistribution of electrons within the uncharged object, resulting in one side becoming more negatively charged while the other becomes more positively charged.
induction
Induction
Induction
Induction
Due to an object nearby, the electrons move to a specific direction as they are either attracted or repelled by it. Such as if there is a negatively charged object near an uncharged object, the electrons in the uncharged object will move as far away from the negative object as possible, and this is what you called an induced charge.
An uncharged object can become charged by gaining or losing electrons. Electrons are negatively charged particles that can be transferred from one object to another through friction, contact, or induction. When an object gains or loses electrons, it becomes charged with a positive or negative charge, respectively.
friction
When an object is charged by conduction, it comes into direct contact with a charged object, causing electrons to transfer between the two objects. If the charged object is negatively charged, electrons will flow from the charged object to the uncharged object, resulting in the uncharged object becoming negatively charged as well.