Balloons typically acquire the same type of charge when they are rubbed against a surface, such as hair or fabric, due to the transfer of electrons. For example, if a balloon becomes negatively charged by gaining electrons, other balloons rubbed in the same manner will also become negatively charged. As a result, like charges repel each other, causing the balloons to push away from one another. If balloons are rubbed against different materials, they may acquire different charges depending on the properties of the materials involved.
Isomers can have the same or different charge depending on their molecular structures. Isomers with different connectivity or arrangement of atoms might have different charges due to variations in the distribution of electrons. However, isomers with the same molecular formula but different structural arrangements will have the same overall charge.
It's due to static electricity build up. The balloons have become charged with electricity and it is the same charge on both balloons (either positive or negative). Opposite charges attract, identical charges repel each other.
No, isotopes have the same electrical charge because they have the same number of protons in their atomic nuclei, which determines the electrical charge. Isotopes only differ in the number of neutrons, which do not have an electrical charge.
Atoms with the same charge are pushed away from each other. Atoms with different charge attract (unite)
Balloons can be shaped differently because of the way they are manufactured. The shape of a balloon is determined by the mold or template used during the manufacturing process. Even though they are filled with the same air, the shape of the balloon is determined by its design and not by the air inside.
The balloons likely acquired different charges. When objects rub against each other, one may lose electrons and become positively charged while the other gains electrons and becomes negatively charged. This results in the balloons having opposite charges.
Yes, most party stores will supply balloons for the same day delivery. However, they may charge more.
Yes, when you rub two balloons with wool and create static electricity, the balloons will become charged. As a result of this charge, the balloons will then attract each other due to the electromagnetic forces between them.
No, balloons generally do not carry a charge by themselves. If a balloon is charged, it is likely due to a build-up of static electricity from rubbing against another object or material.
An example of two objects with the same charge would be two positively charged balloons. When objects have the same charge, they repel each other due to the like charges.
No, balloons rubbed with wool cloth will have opposite charges. The balloon becomes negatively charged by gaining electrons from the wool cloth, while the wool cloth becomes positively charged by losing electrons to the balloon. This results in the balloons having different charges.
When you rub the balloons together, they become charged with static electricity. Since both balloons have the same charge (either positive or negative), they will repel each other due to the electrostatic force. As a result, the two balloons on the same string will push away from each other.
The balloons likely have the same charge, causing them to repel each other due to the electrostatic force. This repulsion is a result of like charges (positive or negative) creating a force that pushes the balloons apart.
When you rub one balloon with wool, and then rub another balloon with wool, we can safely assume that both balloons acquire the same kind of charge. So when you try to bring them together, they'll repel each other (push apart).
When two charged balloons are brought close to each other, they will either repel each other if they have the same charge (both positive or negative) or attract each other if they have different charges (one positive and one negative). This is due to the electrostatic force between the charges on the balloons.
If you rub two balloons with nylon and bring them closer together, they will repel each other due to static electricity. The rubbing creates a build-up of negative charge on both balloons, causing them to have the same charge and push away from each other.
The electroscope will acquire a charge that is opposite in sign to that of the charged glass rod. This is because during induction, the charge separation in the electroscope causes an attraction of opposite charges. The electroscope will acquire the same magnitude of charge as the glass rod, but with an opposite sign.