Presentation is loading. Please wait.

Presentation is loading. Please wait.

Current and Voltage, Series and Parallel Having measured the current and voltage in series and parallel circuits, I can design a circuit and show the advantages.

Published byLewis Bridges Modified over 7 years ago

Similar presentations

Presentation on theme: "Current and Voltage, Series and Parallel Having measured the current and voltage in series and parallel circuits, I can design a circuit and show the advantages."— Presentation transcript:

1 Current and Voltage, Series and Parallel Having measured the current and voltage in series and parallel circuits, I can design a circuit and show the advantages of parallel circuits in everyday application- SCN 3-09a.

2 Today we are going to … Learn what the terms ‘current’, ‘voltage’ and ‘power’ represent Learn about the differences between series and parallel circuits And we will… Be able to build series and parallel circuits Be able to measure current and voltage in series and parallel circuits.

3 Let’s look at electrical charge a bit more… We know that electricity is a form of energy that helps make lots of useful things work. Electrical current is the term we use to describe the movement of electrical charge throughout a circuit. I look scary, but I’m not!

4 Charge is a feature of matter. It causes a force (a push or pull) when placed near another charge. Charges can be positive or negative. Like charges repel each other. Opposite charges attract each other.

5 If an object loses electrons it becomes positively charged If an object gains electrons it becomes negatively charged

6 Electrical current (I) is defined as how much charge (Q) is transferred per second (s) -The more charge that flows, the bigger the current- Current = Charge/time Q I t - Current is measured in Amperes (A) - Time is measured in seconds (s) - Charge is measured in Coulombs (C)

7 A potential difference is needed to allow an electrical charge to flow through a component. This difference in electrical energy between two parts of a circuit is called the voltage. Voltage is measured in… Volts! (V)

8 Series Circuits When components are connected one after the other in a continuous loop, we say the circuit is arranged in series (it has no branches…) Just like this! Try experimenting with this now! What happens when you unplug one bulb?

9 Parallel Circuits When components are connected on different loops, we say the circuit is arranged in parallel (This variety of circuit has branches…) Like this one! Try experimenting with this now! What happens when you unplug one bulb?

10 Measuring the Current in a Series Circuit AA We measure current using an Ammeter.

11 We connect an ammeter in series with the components The current is the same everywhere in the series circuit. I1 = I2 AA I1 I2 Try experimenting with this now! Your total current is determined by the number of cells.

12 We connect a voltmeter in parallel with the components V The voltage is shared between all of the components in the circuit. Try experimenting with this now!

13 In a parallel circuit, the total current is distributed across the components. I1 and I5 are 0.3A I2 = 01.A I3 = 0.1A I4 = 0.1A A A A A A I1 I2 I3 I4 I5

14 V1 V3 V2 V V V In a parallel circuit, the voltage measured across is each component is the same as the voltage of the source. V1 = 1.5V V2= 1.5V V3= 1.5V

15 What about POWER? Power (P) is a measure of the rate of energy transfer. Power is measured in Watts (W) P I V

16 Today we have… Learnt what electrical current is and how charges behave Learnt the relationship between current, charge and time. Learnt what voltage is Learnt how to measure voltage and current in series and parallel circuits Learnt what power is Learnt how to calculate Power when we know the current and the voltage

Download ppt "Current and Voltage, Series and Parallel Having measured the current and voltage in series and parallel circuits, I can design a circuit and show the advantages."

Similar presentations

ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.
+ V (Volt) = W (work done, J) Q (charge, C)

+ V (Volt) = W (work done, J) Q (charge, C)
S2 Science Our Physical World Part 3 Knox Academy Science Department 1. Introduction to static electricity By the end of lesson 1, pupils should be able.

S2 Science Our Physical World Part 3 Knox Academy Science Department 1. Introduction to static electricity By the end of lesson 1, pupils should be able.
Electricity. Let’s Review… Atoms have 3 subatomic particles Protons = positive Electrons = negative Neutrons = neutral Neutral Atom “Normal” state # Protons.

Electricity. Let’s Review… Atoms have 3 subatomic particles Protons = positive Electrons = negative Neutrons = neutral Neutral Atom “Normal” state # Protons.
P2.3.1 – Static Electricity. Objectives, to understand that: –When certain electrical insulators are rubbed together they become electrically charged.

P2.3.1 – Static Electricity. Objectives, to understand that: –When certain electrical insulators are rubbed together they become electrically charged.
Electric Circuits and Power Page 706. Ohm’s Law Resistance is equal to the voltage divided by the current. Resistance = Voltage Current Ohms ( ) = Volts.

Electric Circuits and Power Page 706. Ohm’s Law Resistance is equal to the voltage divided by the current. Resistance = Voltage Current Ohms ( ) = Volts.
Electric Circuits  To calculate the size of a current from the charge flow and time taken Thursday, August 06, 2015.

Electric Circuits  To calculate the size of a current from the charge flow and time taken Thursday, August 06, 2015.
Topic 2 Electricity Within a Circuit. Static and Current Electricity: When charged particles build up in an object it is called static electricity. Another.

Topic 2 Electricity Within a Circuit. Static and Current Electricity: When charged particles build up in an object it is called static electricity. Another.
POWER Noadswood Science, 2012. POWER To understand, and be able to calculate power Monday, August 10, 2015.

POWER Noadswood Science, POWER To understand, and be able to calculate power Monday, August 10, 2015.
Electricity.

Electricity.
Current & Voltage In Series Circuits D. Crowley, 2008.

Current & Voltage In Series Circuits D. Crowley, 2008.
Measuring Current and Voltage. Current and Voltage ce/energy_electricity_forces/electric_current_ voltage/activity.shtml.

Measuring Current and Voltage. Current and Voltage ce/energy_electricity_forces/electric_current_ voltage/activity.shtml.
Physics 4.4. Charge  What is charge?  Where do you see charge around you?  Describe the atom in terms of charge?

Physics 4.4. Charge  What is charge?  Where do you see charge around you?  Describe the atom in terms of charge?
ELECTRICITY REVIEW. Charges  There are two types of charges- what are they?  Positive and Negative  Where do positive charges come from?  Protons.

ELECTRICITY REVIEW. Charges  There are two types of charges- what are they?  Positive and Negative  Where do positive charges come from?  Protons.
ELECTRICAL CIRCUITS. Ohm’s Law I = V / R Georg Simon Ohm (1787-1854) I= Current (Amperes) (amps) V= Voltage (Volts) R= Resistance (ohms)

ELECTRICAL CIRCUITS. Ohm’s Law I = V / R Georg Simon Ohm ( ) I= Current (Amperes) (amps) V= Voltage (Volts) R= Resistance (ohms)
Science Posse University of Wyoming Electricity. What is ELECTRICITY? The physical properties associated with the movement of electric charge.

Science Posse University of Wyoming Electricity. What is ELECTRICITY? The physical properties associated with the movement of electric charge.
Chapter 13.

Chapter 13.
Measurements in Electric Circuits Gr. 9 Electricity Unit.

Measurements in Electric Circuits Gr. 9 Electricity Unit.
 All matter is made of tiny particles called atoms.  Atoms are made of 3 different types of particles: 1. Protons 2. Neutrons 3. Electrons.

 All matter is made of tiny particles called atoms.  Atoms are made of 3 different types of particles: 1. Protons 2. Neutrons 3. Electrons.
ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

ELECTRICAL CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison.

Similar presentations

Ads by Google