It’s a space station!
This was written back when we homeschooled. It is still good information.
We are doing energy this week in science and were watching a show on HuluPlus called Powering he Planet. This was about technological concerns limited the adoption of clean, sustainable energy solutions. Today, economic and political issues often represent the biggest obstacles. What does the future of sustainable energy hold on a world-wide scale?
Now remember, my son…… he thinks outside the box.
This got us into a discussion on what it would take to power the death star. Yep, we went to Star Wars. This then turned into how would you power a light saber, speeder, Luke’s house, and Darth Vader himself.
As for the Death Star, we decided it had to be be a clean source of energy that could re-power itself. We found our answer on the Wookieepedia. At the heart of each Death Star was a gigantic hypermatter reactor, which possessed an output equal to that of several main-sequence stars. Within this chamber burned a reaction of prodigious proportions, fed by stellar fuel bottles lining its periphery. Facilitating the Death Star’s realspace propulsion were a network of powerful ion engines that transformed reactor power into needed thrust. In order for the Death Star to be a deadly threat, it needed to be mobile. Using linked banks of 123 hyperdrivefield generators tied into a single navigational matrix, the Death Star could travel across the Galaxy at superluminal velocities. The incredible energies harnessed by the station combined with its great mass gave the Death Star magnetic and artificial gravitational fields equal to those found on orbital bodies many times greater in size.
This turned into how much energy would the vessel require to pulverize the Earth? We found that answer here. Just in case you ever wanted to know……The Death Star’s superlaser derived power directly from the hypermatter reactor. Its faceted amplification crystal combined the destructive power of eight separate tributary beams into one single blast with the intensity of a stellar core. After firing a blast, though, the Imperial engineers had to recharge the reactor, which took at least 24 standard hours. Though the energy output of this blast could be scaled to fire at smaller targets such as capital ships, as was the case during the Rebel assault on the second Death Star, the two major instances in which the superlaser was fired were at full power at planetary bodies.
Lightsabers we learned is also referred to as the “laser sword“. The weapon consists of a blade of pure plasma emitted from the hilt and suspended in a force containment field. This field contained the immense heat of the plasma, protecting the wielder, and allowing the blade to keep its shape. “Every lightsaber has a standard power source. One of the other crucial pieces is a focusing crystal. The most powerful and sought-after gems are rare Kaiburr crystals. “
We have had quite the day talking about the power sources and how each thing was powered. We even found some Star Wars activities.
Snowflakes Snowflakes and Snowflakes