UPDATE: Home Energy Lab

This semester, we have been continuously working on our wonderful home energy labs! Our challenge was to create a unique lab that focused on changing our lifestyles to save energy in our households and therefore, saving money on our electric bill! We started collecting data in February, so thus far, I have about two three months of solid data! I received my electricity bills for the months of February and March, but have yet to get my bill for April! Hopefully I get it before the project is due!!

For my lab, I decided to change three electricity-related habits of my family to alter in hopes of reducing my electricity usage!

1) Do nightly sweeps of the house to make sure our family is not unintentionally wasting energy!

2) Wash laundry only when you can fill the machine up to the top!

3) Reduce television time to 3 hours a day!

I made calendars for the months I was experimenting on so that I can keep track of my data! I would mark yes or no for nightly sweeps, "full" on days we washed clothes, and the number of hours for television time. This helped me understand my data and provide a conclusion! Keeping up with my original plan didn't go quite as easily as I hoped (maybe because we usually watch a lot of TV), but nonetheless, I think our family's inconsistency helped to show how the altered habits changed our electricity usage. In January, our bill was about the $210, in February, it was about $196, and in March, it was about $202. According to our bill and my calendars, February was the most regulated month regarding the changes in electricity habits in comparison to March and January.

I think data would have been clearer if I took down data and kept a calendar for the month of January without changing our habits (as a comparison month for the subsequent months).

(View from the home that is being tested)

Another tip to save energy is to study by the light of the sun! If you have the sun lighting up your study area, you don't need to use electricity!

Save energy!!

Sound Waves, Sonic Boom, and the Doppler Effect!!

We have been covering so many things in physics recently having to do with waves!! In this post, I'll be covering sound waves, sonic boom, and the doppler effect!

Sound waves are longitudinal, sinusoidal plane waves that are perceptible by humans from about 20 Hz to 20,000 Hz. These waves can be characterized by frequency, wavelength, wavenumber, amplitude, sound pressure, sound intensity, speed, and direction.

"SONIC BOOM" sounds familiar, but what exactly is it? A sonic boom is the point where the shock waves that are created travel faster than the speed of sound "mach 1". Sonic booms occur when there is a large amount of energy at one time, resulting in a sound that resembles an explosion! This is common in planes when they are traveling very fast!!

Lastly, the doppler effect is the change in frequency of a wave for an observer moving relative to its source. For example, when a car is passing you and it's beeping it's horn, the frequency is higher when it is approaching and passing you and lower when it is receding. As the source of the wave (the car) is moving closer to the observer, the wave crests are emitting from a position closer to you, therefore, increasing the frequency. On the other hand, when the wave is moving away from the observer, each wave is emitted from a position further from you, therefore, the frequency is decreased.

We associate ourselves with sonic booms very rarely, but one of the most common times we do is when we are riding an airplane! Airplanes travel at very high speeds to where they are able to generate "sonic booms".

It's kind of hard to catch the doppler effect or sonic boom on camera! Nevertheless, here's an example! If someone was standing on the side of this road, as I approached them (traveling at 60+ mph on the highway) they would hear a high pitched, high frequency noise. Just after I passed them, they would hear a low frequency, low pitched noise. Next time you're walking on the side of the road, stop and listen for the doppler effect!

Waves!!

Living in Hawaii, we are so fortunate to have visuals of waves in our own backyard! Although I am usually busy during the weekends, I was able to take time out of my schedule to enjoy some sun and waves! I had always wondered how waves work (how they are formed or how they break), and now that I know, I can pass it on to you!

Waves are formed by wind. When the wind interacts with the surface of the water, there is a transfer of energy between the two that results in waves! The wind affects the size, speed, and duration of the wave, therefore, the stronger the wind, the faster/larger/longer the waves will be.

When waves get closer to the shore, they hit the floor of the sea and looses energy. Due to friction, the waves begin slowing down, or shoaling, while still moving. The part of the wave that slows down the most is the part closest to the bottom, where friction is the greatest. This is why the top (crest) of the wave seems to curl over the bottom (top is faster than bottom). The speed difference causes the wave to break!

Betcha didin't know that!

This is a picture of the waves in Sandy's where I got to watch people body board. You can see that the part of the wave that is moving faster is the part that is breaking over the surfers. The waves are such beautiful things!

Principle of Superposition!!

This week we learned all about superposition! So what exactly is superposition?

It's when two waves interfere, the resulting displacement of the medium at any location is the algebraic sum of the displacements of the individual waves at that same location!

In class we were asked the question: do waves bounce off of each other or travel through each other? This baffled some of us - we've never thought of that! Well, through an experiment with a slinky we found that waves travel through each other! We also learned that two waves can be in the same place at the same time! What? It's when one wave is super imposed upon another. When one wave interacts with another, they can either have constructive interferences or destructive interferences. 

Constructive interference is a type of interference that occurs at any location along the medium where the two interfering waves have a displacement in the same direction. These wave forms interact and make bigger waves. Total constructive interference occurs when waves have the same wavelength and amplitude, making the resultant wave two times as big.

Destructive interference is a type of interference that occurs at any location along the medium where the two interfering waves have a displacement in the opposite direction. Total destructive interference occurs when waves have the same wavelength and amplitude, but result in a straight line (disturbances cancel out).

(Pictures courtesy of Physics Classroom)

Waves!!

Although we can't always see them, waves are all around us! Living in Hawaii, we are able to see ocean waves all around us. However, we are also surrounded by light waves, sound waves, and so many more!

Here is a typical wave from the shores of Hawaii. Ocean waves are a combination of both longitudinal and transverse waves.

There are two main types of waves: longitudinal and transverse. Longitudinal waves are waves in which its disturbance is parallel to its direction of travel. Earthquakes and sound waves are examples of  On the other hand, transverse waves are in which its disturbance is perpendicular to its direction of travel. A stadium crowd wave is an example of a longitudinal wave.

One wavelength is measured from one spot of the wave until it reaches the same spot. Waves can transport through materials which are known as mediums. For example, the medium that sound waves travel through is air.

This weekend was Junior Prom! Although it was a break from school, we were surrounded by physics! During the dancing portion of the night, there were lightwaves and sound waves all around us. The DJ put a song on and the speakers played the music. Sound waves from the speaker traveled through the air (medium) to our ears so that we could dance!

Multimeters!!

Recently, we've been dealing a lot with these things called multimeters in physics class.

Well, what is a multimeter, you ask?
A multimeter is an instrument designed to measure electric current, voltage, and resistance.

We have been using multimeters in class to understand currents, voltages, and resistances in schematic circuits drawn on the board with a D battery as the voltage source. We learned that when you use a multimeter, you must measure "voltage across, current through". When measuring voltage, you measure from one side of the resistor (lightbulb, wire, etc.) to the other. When measuring current, you must break the circuit and connect the probes between to measure the flow.

What can you use a multimeter for other than for physics experiments and diffusing bombs?
You can use a multimeter for all sorts of things. Within a circuit in your house, you can use the multimeter to check where the break or shortage. You can save money by getting straight to the problem instead of hiring someone else to do it or throwing the device away! For example, if you have a device that is using an ac/dc converter that stops working, how can you tell if it is the converter or the device? Instead of just buying a new device or converter, you can use a multimeter to understand the root of the problem!
You can also use a multimeter to test if your batteries still have voltage in it. Multimeters are useful for testing ac/dc converters, fuses, lightbulbs, wall switches, wall outlets, and most electronic devices in your household!

Electricity Lab!!

Did you know that Hawaii is ranked #1 in the nation for the highest energy costs? The United States average usage is 11-12 cents per kilowatt-hour, while the island of ‘Oahu’s average is close to triple that, with 33.22 cents per kilowatt-hour. These high electricity costs come because of our dependence on foreign oil and our isolated location.

In ancient Hawaii, Hawaiians were sustainable and efficient. They were not exposed to electricity and could function as one of the most effective and organized groups of ancient people. As Hawaiians, we should continue as our ancestors did by living a sustainable life. Although we rely on electricity for our everyday lives, we can restrict our usage to conserve our limited resources while at the same time saving money.

Through this experiment, we can learn the factors dealing with electricity and how to be less dependent on foreign electricity like our ancestors were. The purpose of this experiment is to understand electricity as a whole to better conserve our limited energy source and even save a little money on the side.

I hypothesize that if my family cuts out specific electricity-consuming appliances, we can save at least $10 on our electricity bill!

There are many variables that we must understand to be successful in this lab. A dependent variable is the output or effect of the experiment. This would be the amount of electricity used or the amount of money saved. An independent variable is the input of the experiment that can be manipulated. These variables may include months or changes in our electricity usage. A control is a factor that is kept constant to minimize the amount of variables. A control for this experiment could be testing the same house or building for the changes in electricity usage.

The basic procedures for my lab are as followed:

1.          Collect electric bill from the previous month.

2.         Go to appliances in the house or building.

-      Assess the amount of electricity each appliance uses and find out which uses the most electricity and which is most frequently used.

3.          Decide to cut the amount of the appliance used by a sufficient amount that will be ideal to lower the monthly bill while also fitting with the family’s lifestyle. (For example: Hang dry all clothes for a month, lower water heater temperature, no AC for a month)

-      Continue for a month.

-      Log down hours and power used for each appliance.

4.         At the end of the month, receive your electric bill and compare the two.

     I have collected data for some time now and will continue until the end of the month! Go Green!