Presentation is loading. Please wait.

Presentation is loading. Please wait.

TODAY’S OUTCOMES: SUN AND MOON ELECTRICITY

Published byMaurice Bell Modified over 8 years ago

Similar presentations

Presentation on theme: "TODAY’S OUTCOMES: SUN AND MOON ELECTRICITY"— Presentation transcript:

1 TODAY’S OUTCOMES: SUN AND MOON ELECTRICITY
- Introduce and discuss moon observation project and individual responsibilities - Discuss the differences between series and parallel circuits - Conclude our hands-on study of electricity with construction of more complex circuits ELECTRICITY

2

3

4 HOW DO I MAKE A MOON OBSERVATION?
1) Check the weather! Make sure it’s feasible to look for the moon. 2) Check moonrise and moonset times! Some resources: Farmers’ Almanac: Time and Date AS: Usually, the moon is easiest to see midway between moonrise and set - except when it’s a slim crescent - then near sunrise or sunset is a better bet. 3) Be persistent! - Sometimes (esp. during the day) it can take a while to spot the moon....

5 HOW DO I RECORD A MOON OBSERVATION?
1) Submit it on Blackboard - you will be asked to pick which image (from a set) currently resembles the moon, the date & time, and angle & direction to the sun (if daylight) 2) You may be asked in class to duplicate your observation on a whiteboard for the class to see. 3) The whole class adds the observation to their logbook. 3) Be persistent! - Sometimes (esp. during the day) it can take a while to spot the moon....

6 If we can’t make an observation on a given day, put an “X” on it
Each entry must have: -date and time of the observation -circle representing the moon, with the dark part shaded -IF NOT LATE AT NIGHT, the following info on the sun: - An arrow pointing the general direction of the sun - Whether the sun is east or west of the moon - The arc measurement in degrees between the sun and moon (see bottom of your handout) Start (right now) by filling out a date on every square through the end of Feb., starting with today! If we can’t make an observation on a given day, put an “X” on it 9-6-11 7:30pm 45°W sample (not real data)

7 Your first moon observation assignment will
be given today online. You will be asked to: 1) Find the moonrise and moonset times for every day of the next week, and answer a couple simple questions about them. 2) You will be required to make and submit at least one moon observation over the next 7 days. Your logbook must be updated every class session until it is collected later in the semester! 3) Be persistent! - Sometimes (esp. during the day) it can take a while to spot the moon....

8 > The circuit for the lights in a house resembles the circuit drawn at right. The bulbs are all in parallel. What are the advantages of wiring them this way, instead of putting them in series? 1) In a series circuit, if one electrical device (bulb) is turned off, ALL the devices (bulbs) go off, because the circuit is broken - this would not be good in a house! 2) In a series circuit, the brightest of the bulbs depends on the number of bulbs, but in a parallel circuit the brightness stays the same . > Terry claims there is another advantage: the additional light bulbs don’t cost anything to operate. He argues that the light bulbs are independent of each other, and so there is no way for the power company to know how many are turned on. Paula says there is a way for the power company to tell when a light bulb is turned on. Please explain who is right. Paula is correct - the power used is higher if more light bulbs are turned on. If more bulbs are lit, with the same brightness, then more current flows from the power source, and POWER increases with CURRENT.

9 CURRENT IN SERIES CIRCUITS
(assume all bulbs are identical) 3 volts 3 volts E F G H J Bulbs dimmer in right diagram D A B C Currents through A, B, C, and D are all equal Currents through E, F, G, H and J are all equal 1) Current is the same at all points in a SERIES circuit. Currents in the left diagram are GREATER THAN the currents in the right diagram 2) Adding more devices/bulbs in SERIES reduces the current.

10 CURRENT IN PARALLEL CIRCUITS
(assume all bulbs are identical) 3 volts Bulbs are (almost) the same brightness in both diagrams 3 volts E F G J H D A The current through E or J is the SUM of the currents through F, G, H Current E = Current J = Current F + Current G + Current H The current splits at the green points ; so the current through A or D is the SUM of the currents through B and C Current A = Current D = Current B + Current C B C Currents through A, B, C, and D are NOT all equal Currents through E, F, G, H and J are NOT all equal

11 CURRENT IN PARALLEL CIRCUITS the same brightness in both diagrams
(assume all bulbs are identical) 3 volts 3 volts D A J E Bulbs are (almost) the same brightness in both diagrams B F G C H 1) Current is NOT the same at all points in a PARALLEL circuit, and is highest in the wires leading to and from the power source 2) Adding more devices/bulbs in PARALLEL increases the current at the power source.

12 9. Susan made an extra bright flashlight
9. Susan made an extra bright flashlight. It has two batteries (like most flashlights) but three light bulbs. It gives off three times as much light, but the batteries don't last very long. Here is a diagram of Susan's flashlight. Explain how the concepts voltage, current, power, and energy are involved in this device; by the time you are done, you should have completely explained the sentence, " It gives off three times as much light, but the batteries don't last very long. " Adding extra bulbs in parallel to a common voltage increases the current drawn from the batteries, and thus the power used, which increases total brightness. A higher power flashlight increases the rate at which energy is used, depleting the batteries faster.

13 WHAT YOU ARE EXPECTED TO KNOW:
- How series and parallel circuits are different - What happens in a parallel circuit when more elements are added - Where the current is greatest in a parallel circuit and why WHAT YOU ARE EXPECTED TO KNOW:

14 TODAY IS THE LAST ELECTRICAL CIRCUIT LAB
TEST ON ELECTRICITY: OPEN NOTE NEXT WEDNESDAY 2/1/12 Homework Assignments: 1) Online: Moon Observations - due next Fri. 2) Written: Review sheet - due next Wed. (some answers are already posted on Blackboard!) 3) Reading: Electrical safety - by Mon.

15 TODAY’S OUTCOMES: SUN AND MOON ELECTRICITY
- Introduce and discuss moon observation project and individual responsibilities✓ - Discuss the differences between series and parallel circuits✓ - Conclude our hands-on study of electricity with construction of more complex circuits ELECTRICITY

Download ppt "TODAY’S OUTCOMES: SUN AND MOON ELECTRICITY"

Similar presentations

35.1 A Battery and a Bulb In a flashlight, when the switch is turned on to complete an electric circuit, the mobile conduction electrons already in the.

35.1 A Battery and a Bulb In a flashlight, when the switch is turned on to complete an electric circuit, the mobile conduction electrons already in the.
Day 2: Parts of a Circuit Simple Circuits  An electric circuit is the path that an electric current follows  Current is flowing charges, like cars.

Day 2: Parts of a Circuit Simple Circuits  An electric circuit is the path that an electric current follows  Current is flowing charges, like cars.
Electric Circuits Notes

Electric Circuits Notes
A special partnership between the Georgia Department of Education and the Educational Technology Training Centers in support of the 8 th Grade Physical.

A special partnership between the Georgia Department of Education and the Educational Technology Training Centers in support of the 8 th Grade Physical.
Circuits Energy & Environment. Simple Circuit G -ve +ve Wire Lamp Switch Fuse Battery Power Source Safety Device Controlling Device Purpose Connect circuit.

Circuits Energy & Environment. Simple Circuit G -ve +ve Wire Lamp Switch Fuse Battery Power Source Safety Device Controlling Device Purpose Connect circuit.
Do Now for 6/10/13 Open books to page D-69 HW: Complete Group Procedure.

Do Now for 6/10/13 Open books to page D-69 HW: Complete Group Procedure.
Before we get started, let’s review: Describe a Series Circuit.

Before we get started, let’s review: Describe a Series Circuit.
20.2 Resistors in Series or Resistors in Parallel pp 736- 745.

20.2 Resistors in Series or Resistors in Parallel pp
Resistance in a Complex Circuit

Resistance in a Complex Circuit
Ghaith shaheen ID:1021080122 Mohammed Yousef Mahmoud ID:1021080079 12-06.

Ghaith shaheen ID: Mohammed Yousef Mahmoud ID:
Electric Circuits with Multiple Loads 10.7. Some electric devices, such as calculators, simple cameras, and flashlights, operate only one electric load.

Electric Circuits with Multiple Loads Some electric devices, such as calculators, simple cameras, and flashlights, operate only one electric load.
Electricity – Potential Difference

Electricity – Potential Difference
Lab A-1 What is a Circuit?. Part 1. How many different combinations of the battery, bulb and wire completed the circuit? 1.1 2.2 3.3 4.4 5.None are correct.

Lab A-1 What is a Circuit?. Part 1. How many different combinations of the battery, bulb and wire completed the circuit? None are correct.
Lesson#23 Topic: Simple Circuits Objectives: (After this class I will be able to) 1. Explain the difference between wiring light bulbs in series and in.

Lesson#23 Topic: Simple Circuits Objectives: (After this class I will be able to) 1. Explain the difference between wiring light bulbs in series and in.
- Review remaining concepts regarding complex circuits - Introduce the moon observation project and assign dates for each group to observe the moon - Operationally.

- Review remaining concepts regarding complex circuits - Introduce the moon observation project and assign dates for each group to observe the moon - Operationally.
Good Afternoon! 10/2/2015 Starter: On holiday lights, why is it that on some strings, when one bulb goes out, they all go out? Today we will be learning.

Good Afternoon! 10/2/2015 Starter: On holiday lights, why is it that on some strings, when one bulb goes out, they all go out? Today we will be learning.
Bellwork (3/5/14)  What are four voltage source examples? Please turn in the Dream Room Pre- Assignment.  D-cell battery.  Power lines.  Electric fence.

Bellwork (3/5/14)  What are four voltage source examples? Please turn in the Dream Room Pre- Assignment.  D-cell battery.  Power lines.  Electric fence.
IV. Electrical Circuits & Power

IV. Electrical Circuits & Power
TODAY’S OUTCOMES: - Review what is needed for a complete circuit and how to avoid short circuits - Investigate how siphons and flowing fluids work - Consider.

TODAY’S OUTCOMES: - Review what is needed for a complete circuit and how to avoid short circuits - Investigate how siphons and flowing fluids work - Consider.
COMPLEX CIRCUITS. CONSTRUCT A CIRCUIT Show direction of the current. Unscrew light bulb 1. Explain what happens. Repeat for bulb 2 Repeat for bulb 3 1.

COMPLEX CIRCUITS. CONSTRUCT A CIRCUIT Show direction of the current. Unscrew light bulb 1. Explain what happens. Repeat for bulb 2 Repeat for bulb 3 1.

Similar presentations

Ads by Google