I believe that they will push away from each other. Only opposites attract.
When two positive objects touch, they will repel each other because like charges repel. This is due to the presence of same type of charges, which leads to a force of repulsion pushing them apart.
The two charges repel
When a warm object touches a cold object, heat energy is transferred from the warmer object to the cooler object. This transfer of heat causes the warmer object to cool down and the cooler object to warm up until they reach thermal equilibrium.
When a charged object touches a conductor, the charge on the object will distribute itself across the surface of the conductor due to the repulsion or attraction of like and unlike charges. This process helps to neutralize the charge on the object, resulting in an overall even distribution of charge on the conductor.
When an object with a negative charge touches another object, electrons may flow from the negatively charged object to the neutral object until they both reach a neutral state. This transfer of electrons can create a temporary flow of electricity between the two objects.
They separate, with positive charges on one side and negative charges on the other.
The negative charge of the object will induce a positive charge on the comb, causing the comb to be attracted to the object.
Nothing!
They attract.
When an object with a negative charge touches another object, electrons may flow from the negatively charged object to the neutral object until they both reach a neutral state. This transfer of electrons can create a temporary flow of electricity between the two objects.
Nothing
Nothing.
They attract each other.
They attract eachother.
When you rub one object with another, electrons can transfer from one object to the other. This can create a build-up of static electricity, causing objects to become charged. Friction between the objects can also generate heat.
They separate, with positive charges on one side and negative charges on the other.
This element become a positive ion (cation).
If the positive direction was defined at the outset as the direction opposite to the direction in which the object happens to be moving just now, and the object is slowing down, then the acceleration is positive because, algebraically, the object's speed is increasing in the positive direction.
Heat is conducted form the high temperature body to the low temperature body until their temperatures are the same.