Electric charge comes in two types, called positive and negative.
Protons are positive, and electrons are negative.
The force that acts on any two objects that have a charge is the electromagnetic force. This force can be attractive or repulsive depending on the types of charges (positive or negative) on the objects.
False. The electric force between two objects is determined by the amount of charge on each object, as well as the distance between them. If the electric charge on two objects is decreased, the electric force between them will also decrease.
The strength of an electric field is influenced by two factors: the magnitude of the charge creating the field, and the distance from the charge at which the field is being measured. The larger the charge and the closer the distance, the stronger the electric field will be.
The net electric force between two point charges is zero at the point where the electric field due to one charge cancels out the electric field due to the other charge. This occurs along the line connecting the two charges at a point where the electric field vectors due to each charge are equal in magnitude but opposite in direction.
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protons and electron
Protons are positive, and electrons are negative.
The two types of electric charges are positive and negative. Positive charges repel each other, as do negative charges, while positive and negative charges attract each other.
there are basically 3 types of electrical charges VIZ,Electrons,Protons,NutronsAnswerThere are two types of electric charge: a negativecharge, and a positive charge.Electrons are negatively charged, and protons are positively charged. Neutrons (not 'nutrons'!) do not carry any charge -they are 'neutral'!
The force that acts on any two objects that have a charge is the electromagnetic force. This force can be attractive or repulsive depending on the types of charges (positive or negative) on the objects.
False. The electric force between two objects is determined by the amount of charge on each object, as well as the distance between them. If the electric charge on two objects is decreased, the electric force between them will also decrease.
The strength of an electric field is influenced by two factors: the magnitude of the charge creating the field, and the distance from the charge at which the field is being measured. The larger the charge and the closer the distance, the stronger the electric field will be.
The net electric force between two point charges is zero at the point where the electric field due to one charge cancels out the electric field due to the other charge. This occurs along the line connecting the two charges at a point where the electric field vectors due to each charge are equal in magnitude but opposite in direction.
The electric force between two objects is directly proportional to the amount of charge on each object. As the amount of charge increases, the electric force between the objects also increases. Conversely, if the amount of charge decreases, the electric force between the objects will decrease.
The two types of handheld vacuums are electric and rechargeable
The electric charge of a proton is +1, and the electric charge of an electron is -1. Therefore, a particle containing two protons and one electron would have a total charge of +2 + (-1) = +1.