Here is the data our group gathered for 14 phones. We plugged each phone into its charger and then into the Watts Up Pro to measure the rate of energy used while it made a one minute long phone call. We simultaneously measured its maximum radiation in volts/meter using the RF meter. We took down the phone type and whether or not it is considered a smart phone. Our results follow:

Roles/ Methodology

Josh will use the program Reaper to adjust the decibel levels of songs in order to have equal volume regardless of dynamic range for the songs clips that will be used for our preference testing.  Reaper will also be used to remaster a song in the manner found to have the highest “sound quality” rating by our test subjects.

Gio will use a microphone as well as Reaper to measure the dynamic range of each of the recordings used in the test as well as collect the mastering preference data from test subjects as well as create the tables, charts and graphs of our collected data.

The testing of subjects will entail listening to several 30 second clips (randomly selected to be original or remastered) and asked to rate their sound quality on a scale from 1 to 10.  All clips will be adjusted to have equal volume.

The Science and Technology Involved:

Our project revolves around different types of sound encoding, analogue (vinyl) vs digital (mp3).  Furthermore, the mastering processes during the recording of music effects the dynamic range of said recordings and the measurement and personal preference to type of mastering is also of concern.  Therefore, microphones, a recording and mastering program (Reaper), and a consistent sound system for testing purposes are all required for our project.

Expected outcome:

As volume has been boosted over the years, we expect clipping to have occurred.  Therefore, we expect people to prefer the original recordings over the remastered ones when they are adjusted for volume.

Our group will be creating holograms using the holography tools in an attempt to gain a better grasp of how they are made and the processes behind their creation. We also plan to explore the various types of holograms that we can create with the tools available to us. While we run across holograms in many different forms and applications in our daily lives, we–and many others, have little to no understanding of the actual technology at work. We anticipate that this will be a very engaging experiment.

For our project we plan to ultimately produce a map of campus, showing the strength of the wireless signal at different points around the school.  We will walk around campus with the RF meter, mapping wireless internet signals as we go.  This can be done by two people at a time, one to read the meter and one to record it on the map.  Then we will compile the data and make a colored map showing hot spots around campus.   We can use this to experimentally find the location of the wireless routers.  We will also look into additional functions of the RF meter to see what else it can tell us about internet access around campus. We will meet on Sundays until we finish gathering our data, and if we find we need to meet more often we will communicate via e-mail to schedule those. We will do research into the science and technology, namely the RF meter and what wireless internet is and how it works. We expect the signal to be relatively consistent across the main bulk of campus (around all the dorms and academic buildings).  The signal might get worse in open places, like the library lawn or the middle of the quad, and the signal should be significantly worse in places like Sunset Lake, that are removed from the main part of campus.

Roles

Tyler – Data collection in the laser lab.

Luke – Research on examples of lasers in pop culture, as well as evaluating their validity based on our data/outside research.

Alexa – Research on use of lasers in military, and how our data explains why lasers make sense to use in these military contexts.

What is the science/technology involved?

The science/technology we are investigating is lasers, and we are studying how they can be used as weapons in a variety of different ways.

Activity Plan – How will you take the data, what equipment do we use, dates and meeting times?

We plan on taking data from a high-class laser in Vassar’s laser lab. We will test the laser on different surfaces of varying thickness. We want to measure certain variables such as penetration ability, energy output, and optical cavity size. We will meet at 6 o’clock on Mondays, and 6 o’clock on Thursdays.

What outcomes do we expect?

We expect that our data will reveal that lasers carry a great amount of potential for use as weapons. We also expect to find that the portrayal of lasers in science fiction isn’t plausible and doesn’t reflect the actual properties of lasers.