Law of electric charges
What is an electric charge?
Law of electric charges Opposite charges attract Similar charges repel each other Charged objects attract neutral objects
Plasma One of four states of matter – solid, liquid, gas, plasma
Charging by friction Charges (electrons) are transferred when two objects are rubbed together Based on electronegativity (the ability to attract electrons) which depends on atomic radii and # of protons
Charging by contact Charged when objects touch Electrons repel each other. If there are an excess of electrons, they will push each other off the materials (assuming they are allowed to flow)
Charging by Induction Charge is created through a repulsion between charged objects
Law of conservation of charge What do you think this means? (How many law of conservation of _________ do you know of?) The total charge (the difference between the amounts of negative and positive charges) within an isolated system is conserved
Charge q = ne q – Net Charge (C - Coulombs) n – Number of excess charges (electrons or protons) e = 1.602 x 10-19 C/charge If we have protons, charge is positive If we have electrons, charge is negative
Coulomb’s Law 𝐹 𝑒 = 𝑘 𝑞 1 𝑞 2 𝑟 2 Fe – Electric Force (N) 𝐹 𝑒 = 𝑘 𝑞 1 𝑞 2 𝑟 2 Where, Fe – Electric Force (N) q1, q2 – Electric Charge (C) r – Distance between centres (m) k = 9.0 x 109 Nm2/C2 K is dependent on medium
What are the similarities and differences between electric and gravitational fields?
Example The electrostatic force between two small charged objects is 7.0x10-6 N. A) Calculate the force if the distance between charges is tripled. B) Calculate the force if the charge on one object is halved while the other is increased by four times. C) Calculate the force if both a and b occur
Example Charge sphere X and Y are in a fixed position and have charges as shown below: Calculate the net force on Z. d= 40.0cm d= 15.0cm qX = 5.5x10-7C qY = -3.4x10-8C qZ = 8.3x10-7C
Example Calculate the net force on sphere # 1. d= 50.0cm q1 = 4.0µC