When a -ively charged object comes in contact with a +ively charged object, they dischage. The electrons flow from the -ive side to the +ive side until the charges on both objects are equal
What happens when a negatively charged object and a postively charged object come in contact with each other?
When a negatively charged object and a positively charged object come in contact with each other, a process called "charging by contact" occurs. In this process, the excess electrons on the negatively charged object move towards the positively charged object, resulting in the redistribution of charge. This transfer of electrons continues until both objects have equalized their charges.
To understand why this happens, we need to consider the behavior of charges. Like charges repel each other, while opposite charges attract each other. In the case of a negatively charged object, it has an excess of electrons, and therefore a negative charge. On the other hand, a positively charged object has a deficit of electrons and has a positive charge.
When the negatively and positively charged objects come into contact, the excess electrons on the negatively charged object will tend to repel each other and move towards the positively charged object. This movement occurs because the electrons are attracted to the positive charge on the other object. As a result, the electrons flow from the negatively charged side to the positively charged side until the charges on both objects become equal.
It's important to note that the redistribution of charge is a temporary phenomenon. Once the charges on both objects have equalized, they will no longer transfer electrons, and the objects will no longer be charged.