They attract.
When you place the balloon against the wall, it induces a separation of charges in the wall. The negative charges in the balloon repel the negative charges in the wall, leaving an excess of positive charges near the surface of the wall where the balloon is placed.
This phenomenon occurs due to the principles of electrostatics. When the charged balloon is brought close to the stream of water, it polarizes the water molecules, causing them to be attracted to the balloon. When the balloon is charged again, it may have the opposite charge, leading to the repulsion of the water stream due to like charges repelling each other.
When two like charges are placed together, they repel each other due to the force of electrostatic repulsion. This force pushes the charges away from each other, resulting in a net outward force between the two charges.
Dissimilar charges attract.
When a balloon is placed in ice, the air inside it cools down and contracts, causing the balloon to deflate slightly. As the air molecules lose energy and move closer together, the volume of the balloon decreases. Once the balloon is removed from the ice and allowed to warm back up, the air inside it expands, causing the balloon to reinflate.
When you place the balloon against the wall, it induces a separation of charges in the wall. The negative charges in the balloon repel the negative charges in the wall, leaving an excess of positive charges near the surface of the wall where the balloon is placed.
This phenomenon occurs due to the principles of electrostatics. When the charged balloon is brought close to the stream of water, it polarizes the water molecules, causing them to be attracted to the balloon. When the balloon is charged again, it may have the opposite charge, leading to the repulsion of the water stream due to like charges repelling each other.
When two like charges are placed together, they repel each other due to the force of electrostatic repulsion. This force pushes the charges away from each other, resulting in a net outward force between the two charges.
Dissimilar charges attract.
When a balloon is placed in ice, the air inside it cools down and contracts, causing the balloon to deflate slightly. As the air molecules lose energy and move closer together, the volume of the balloon decreases. Once the balloon is removed from the ice and allowed to warm back up, the air inside it expands, causing the balloon to reinflate.
Rubbing two pieces of wool together creates static electricity. When placed close together, the opposite charges on the wool pieces attract each other, causing them to stick together momentarily due to the static force.
According to the law of electric charges,opposite charges attract and like repel. therefore, An electrical charge is placed on the part being painted, an opposite charge on the paint sprayer. Since opposite charges attract, paint droplets are drawn to the object being painted.
Like charges repel each other, meaning they push away from each other. Unlike charges attract each other, meaning they pull towards each other. This behavior is governed by the fundamental force of electromagnetism.
If the objects have opposite charges, they will attract each other due to the force of electrostatic attraction between opposite charges. If they have the same charge, they will repel each other due to the force of electrostatic repulsion between like charges.
According to the law of electric charges,opposite charges attract and like repel. therefore, An electrical charge is placed on the part being painted, an opposite charge on the paint sprayer. Since opposite charges attract, paint droplets are drawn to the object being painted.
The balloon is filled with a gas.
An electric dipole consists of two equal and opposite charges separated by a distance. When placed in a uniform magnetic field, the charges experience a force in opposite directions due to their opposite velocities in the field. This results in a torque acting to align the dipole along the field lines of the magnetic field.