# CTE Resource Center - Verso - Electronics Systems I Task 1176103429

Describe the law of charges.

Definition

Description should include
• explaining that between magnetic objects, those with like charges repel and those with unlike charges attract
• knowing that the size of the charge and the amount of force produced have a direct relationship
• understanding that force is applied in a direct line between objects
• identifying that the inverse square law of the electrostatic follows the force of attraction
• explaining that the electrostatic force of attraction between two point charges are proportional to the product of the magnitudes.

Process/Skill Questions

• Who is credited with discovering the law of charges?
• How should objects with similar charges behave with each other, according to the law of charges?
• What are some everyday examples of the law of charges?
• How does the size of a magnetic field relate to charge?

Mathematics

A.4

The student will solve
1. multistep linear and quadratic equations in one variables algebraically;
2. quadratic equations in one variables algebraically;
3. literal equations for a specified variable;
4. systems of two linear equations in two variables algebraically and graphically; and
5. practical problems involving equations and systems of equations.

A.8

The student, given a situation in a real-world context, will analyze a relation to determine whether a direct or inverse variation exists, and represent a direct variation algebraically and graphically and an inverse variation algebraically.

AII.3

The student will solve
1. absolute value linear equations and inequalities;
2. quadratic equations over the set of complex numbers;
3. equations containing rational algebraic expressions; and
4. equations containing radical expressions.

AII.10

The student will represent, create, and solve problems, including practical problems, involving inverse variation, joint variation, and a combination of direct and inverse variations.

Science

PH.6

The student will investigate and understand that quantities including mass, energy, momentum, and charge are conserved. Key concepts include
1. kinetic and potential energy;
2. elastic and inelastic collisions; and
3. mass/energy equivalence.