PS-6.6 Explain the relationships among voltage, resistance, and current in Ohm’s law. Key Concepts: Voltage: volt Resistance: ohm Current: amp Ohms law.

Slides:

Advertisements

Similar presentations

Electrical Current & Circuits

Advertisements

Electric currents Chapter 18. Electric Battery Made of two or more plates or rods called electrodes. – Electrodes are made of dissimilar metals Electrodes.

Physical Science 7.2 Electric Current.

Chapter 19 Flow of Electricity Useful electricity requires moving electric charges You must do work to move a charged particle against an electric field.

Cells have positive and negative electrodes.

 Rate (how fast) at which charges pass a given point  Measured in Amperes or amps  Current (I)  Electrons moving in a wire make up current and provide.

Electricity Foundations of Physics. Electricity The movement of charge from one place to another Requires energy to move the charge Also requires conductors.

Ohm’s law describes the relationship of current, voltage, and resistance.

Ohm’s law describes the relationship of current, voltage, and resistance.

Current Electricity.

Circuits & Electronics

Unit 5 - Electricity StandardSPS10. Students will investigate the properties of electricity and magnetism. EQ: How do you relate electron movement to static.

ElectricitySection 2 Voltage and Current 〉 How are electrical potential energy and gravitational potential energy similar? 〉 Just as a ball will roll downhill,

Foundations of Physical Science Unit 3: Electricity and Magnetism.

ElectricitySection 2 Section 2: Current SC.912.P Investigate and explain the relationships among current, voltage, resistance, and power.

Electrical Resistance and Ohm’s Law Electric circuits are used to convert electrical energy into some other form of energy we need.

Warmup: Concept: OHM’s Law. Electrical current is a measure of the rate at which electrical charge moves in a circuit. Electrical current is measured.

EGR 1011 Where Does Current Come From? The free electrons in a conductor need to be replaced when they move through the conducting medium (the wire). These.

Ch. 34 Electric Current.

CHAPTER 1 ELECTRICITY. The amount of charge flowing past a point in a given time CURRENT.

Part II: Electrochemistry Electricity is generated by the movement of charged particles, in which opposite charges ___________ one another and like charges.

 Electricity is caused by the flow (or net movement) of Electrons  Electric Current – the rate that positive charges flow in a circuit › Actually a.

Electric Current and Resistance Chapter 19 Sections 1 & 2.

Measuring current Electric current: rate of flow of electrons past a specific point in a circuit Measured with: Ammeter Symbol: I Unit: ampere (A) 1 A.

ELECTRIC CURRENT. What is current electricity? Current Electricity - Flow of electrons What causes electrons to flow? When an electric force is applied,

 Measuring current may be accomplished by using a meter called an Ammeter  This meter is placed in the path of the electron flow, and reads the flow.

Electric Current Chapter 7 section 2.

Electric Circuits. Electric Circuit Is a closed path for the flow of electrons. Consists of: 1.Source of electricity 2.Wires to conduct the flow of.

Ohm’s Law Calculating Current, Voltage, and Resistance.

Electric Current and Ohm’s Law. Electric Current Electric current is the continuous flow of electric charge Two types of current are direct and alternating.

 Electric Current- net movement of electric charges in a single direction ◦ Example- powering electronics.

1 Chapter 20 Review activity! Fun in B208!.  A. Unit of energy  B. Unit of charge  C. Unit of current  D. Unit of voltage. 2 What is a coulomb?

2c) Energy and Potential Difference in Circuits Part 1 Current and Charge.

Electric Current.  Electric current is the continuous flow of electric charges through a material.  Needed to power any electrical device.  Measured.

Chapter 6: Electricity Section 1: Electric Charge

Mr. Gillis’ Science Class. What needs to happen to get the bulb to light?

Electricity. Means a flow of charge (like a water current indicates flow of water) Electric current is based on quantity of charge per second Current.

PHYSICAL SCIENCE Electricity Part 2: Current Current Objectives Describe how batteries are sources of voltage. Explain how a potential difference.

8.1 ELECTRIC POTENTIAL ENERGY AND VOLTAGE BC Science 9: p

Unit 11: Electric Current Many practical devices and applications are based upon the principles of static electricity. Electricity became an integral part.

Topic: Electric Current and Electrical Energy PSSA: C / S8.C.2.1.

7.2 Electric Current Current is the net movement of electric charges. – These can be electrons as in wires. – These can be ions as in electrolytes. In.

Current Resistance Electric Power & Energy. Voltage (V) Electric potential difference between 2 points on a conductor Sometimes described as “electric.

Electric Current. Charge in motion (“flow” of charges). Charge in motion (“flow” of charges). Current: The number of electrons that pass a specific point.

What do you think? What do you think these four pictures have in common?

Electric Current Chapter 34.2, 34.4, 34.5, and Notes.

Electric Fields and Potential. Electric Fields Every electric charge is surrounded by an electric field – the area around an electric charge where electric.

Electrical Current & Circuits

Electric Current Electric current – The net movement of electric charges in a single direction through a wire or conductor. Voltage difference – The force.

Physical Science 7.2 Electric Current.

Introduction to circuits, Coulomb Law.

Electricity 7-2 Electric Current.

through a conducting metal

Charge on the Move Ch. 7 section 2

7-2: Electric Current.

Ch Electricity II. Electric Current Circuit Potential Difference

Electricity 2 objectives.

Chapter 7 section 2 Electric Current

Electricity Electric Current.

ELECTRICITY: Electric Current

Electric Current 6.2.

Electric Current.

20.2 Electric Current and Ohm’s Law

Electrical Current &Circuits

What is Electricity? Electricity is the flow of electrical charge because electrons start to move. All matter is made of atoms that contain electrons The.

Circuits and Ohm’s Law.

Ohm’s Law & Circuits Chapter 7.2 & 7.3.

Voltage Difference The difference in electrical potential between two places. Unit of measure = V (volts) Voltage causes current to flow through an electric.

Electric Current 13.2.

Electrical Current & Circuits

Presentation transcript:

PS-6.6 Explain the relationships among voltage, resistance, and current in Ohm’s law. Key Concepts: Voltage: volt Resistance: ohm Current: amp Ohms law

Voltage Voltage occurs because of difference in charge between two points. This is electric potential energy. The symbol for voltage is “V”.

Voltage is sometimes referred to as electrical force. Voltage is the force like quantity that can move electrical charge from one point to another.

Voltage is created by a chemical cell when it changes chemical energy to electrical energy The acid electrolyte reacts with the Zinc metal releasing electrons.

When a wire connects the terminals of a battery then the voltage will push and pull electrons through a conductor. Electrons in the wire are pushed by the negative terminal and pulled by the positive terminal through the wire.

A generator changes mechanical energy to electric energy. When a wire connects the terminals of a generator then the voltage will push and pull electrons through a conductor.

In all devices that produce electrical current, one terminal has extra electrons, thus a negative charge. The other terminal has a deficit of electrons and thus a positive charge.

Electric current: …is the flow of electrons through a conductor is measured in amperes sometimes referred to as “amps”. The symbol is (A). 1 ampere of electrical current is equal to 6.25 x ( a coulomb) electrons moving through a circuit in one second!

REALITY CHECK: If you had 1 coulomb of sand grains you would need all these dump trucks to hold them!

Resistance: …happens when the electrons flowing through the wire continually run into things ( in this case copper atoms) in the wire and bounce around. …Resistance opposes the flow electrons through a conductor. The electrical resistance is like electrical friction… it produces heat!

ELECTRICAL RESISTANCE: …will slow the flow of current because it is harder for the current to get through the conductor. Wires that have a larger diameter have less resistance. Longer wires have greater resistance.

Electric devices provide much of the resistance in a circuit

Ohms law describes the relationship between voltage, current, and resistance. The voltage is the product of the current and resistance. (V = I R) One volt will pull one amp of current through one ohm of resistance. *** EXAMPLE: What is the current in a 12V circuit with a resistance of 200 Ohms? I=V/R I= 12V / 200 Ohms I=.06A Note: The letter I represents electrical current in Amperes in the equation.

If the voltage increases and the resistance remains the same the current will increase.

If the voltage stays the same and the resistance increases then the current will decrease.

The End…. For Now.…