Playtest this weekend!

I’ll be at gameday in Fenton Missouri this Saturday playtesting The Sword and The Hive. It sounds like a good event and it will be interesting to see what folks make of this whole Bugs vs Brits thing. If things go well I’ll do a battle report. If they go badly I won’t :–)


How big is the Hive?

I wrote a short piece on how big individual Bugs get. How many of those are there? If you look under the Biology of the Hive tab you’ll see a screen shot of a program that calculates the size of teh Hive at any point in its life. If anyone would like a full copy of teh program please let me know.


A another new resource document

One of the really nice things about having a web site dedicated to this setting is that information that supports the background, that provides depth and texture, but wouldn’t really be valuable as part of a retail product can be made easily available. In the historical Documents section I’ve uploaded the Treat of Brussels from 1872. This fictional agreement describes the diplomatic events in the wake of the Russian claim to Lunar ownership. It spells out how the Great Powers will partition space and where they will compete and where they will cooperate. I wrote this a few years ago and am still very pleased with the result. I’m exceptionally please with how it looks on the web page. Feel free to look it over and leave some comments.

How the Bugs get Soooooo BIG!

On Earth few arthropods reach large sizes. The ability of Hive creatures to regularly exceed the weight of horses and even larger vertebrates has stunned scientists. If the rules of scale for engineering are true how can animals with external skeletons get so big?

Ever since giant insects became a stable of atomic horror movies in the 1950s scientists have been quick to show why arthropods can’t reach the size of a compact car. The reasoning is based on three issues: The cube/square law means that the external skeletons of arthropods would not be able to handle the disproportionately greater loads of vast size increases. Due to inefficient respiratory and circulatory systems large arthropods would be unable to effectively profuse oxygen throughout their internal tissues. Finally in vertebrates the internal skeleton grows with the rest of the body, external skeletons can’t do this. How does The Hive manage to evade biology and physical constraints and achieve the enormous sizes seen? Let us take these arguments one by one and see what strategies the organisms.

A question of strength:
The structure of arthropods basically consists of a number of hollow rigid tubes. The ability of a tube to withstand stress is based on the strength of the material, its thickness and the load and direction of the stress. As an arthropod gets larger the stress increases by the cube of the difference while the strength only increases by the square. If all things remain constant it seems obvious that large arthropods would collapse under their own weight. However, do all things need to remain the same? The answer is, of course, no. There are at several methods that can be used to support greater mass and associated forces. The most obvious method would be to increase the thickness of the tube walls, make the exoskeleton thicker. There are limits to this, since at some point the structure loses so much interior volume that it can no longer serve as a container for the muscles, nerves and liquids the animals needs to live. A second method would be for the modification of the simple tube into a stronger structure. One way to do this would be for the tube to be fluted increasing its strength greatly while still keeping its weight to a minimum. The basic structure can also be reinforced in other ways, just as flying buttresses keep a gothic cathedral from falling. Finally stronger materials can make up the walls of the tubes. Analysis indicates that chitin as it exists on earth is actually extremely strong and only slight stiffening would be needed to support the increased mass of the aliens.

Every beat of a heart:
Insects don’t separate their internal systems like mammals and other higher animals do. Their functions of respiration and oxygen transport are performed by a single system which doesn’t actively pump blood or draw in oxygen, but relies on interactions between individual molecules to disperse oxygen and energy throughout the animal. This is efficient for small systems but fails completely in larger animals. Of course the simple solution is for these animals to have complex and active respiratory and circulatory systems similar to those of mammals, or better yet birds. It is immediately obvious that such systems exist and can effectively perform the functions needed in large active animals.

Change is good:
Many arthropods are required to shed their skins as they age and grow. Each time they do so the new covering requires time to harden and also reduces the size since any internal supports cannot grow to match the new outer shell. However there is a method used by many types of insects that removes this as an issue. Those insects, such as beetles, butterflies, flies and wasps that undergo complete metamorphosis do not progress through a series of instars that are each slightly bigger and more adult than the one before but make the step from a larva to complete adult in a single complex biological operation. This pathway also seems to suit The Hive well.

So there you have it, how the big bugs got well. . . BIG.

More fiction

We finally got some of the tech issues worked through and posted additional fiction. The format isn’t perfect yet, but we’ll get that squared away, hopefully soon. There should also be additional information in the places to visit section as well as some more resources for Victorian role playing.

Moving Things along

Today should see several more documents added. These include the First International Space Treaty, drafted after the stunning Russia Lunar Landing in 1870.

There will also be an article from The Times about the loss of the Spaceship Etheria and Nicola Tesla

Finally, and most importantly I hope to have the HQC Timeline posted. This give many of the important historical events (both actual historical ones and those in this altered time line). Events go back to about 1790 and continue through 1892.

Hello world!

Welcome to the Universe of Hive, Queen and Country. HQC is Victorian Science Fiction; “Steampunk” may not be the exact term but it will do for a general idea of what goes on here. Below are some of the basic ideas of this fictional setting.

What would have happened if space travel was an economic reality in 1880? What if the Victorians had colonized the inner solar system? What if they were not alone?

Hive, Queen and Country is designed to provide a playground, a detailed and deadly one, for roleplaying gamers interested in an altered Victorian Science Fiction setting. With information on Earth, Mars, Venus and the Moon gamemasters and players will very likely find some place within the Solar System that provides the type of adventure setting they most enjoy. The Great Powers, The British Empire, a French Empire with a Napoleon on the throne, German States still in a Confederation and the Iberians united with Brazil vie for control of vast resources and ancient and alien technology.

Please feel free to add to this setting. Explorers and their ideas are always welcome.

This setting has been evolving for several years: first on some general gaming lists, then for the last two and a half years here. Many extremely sharp and talented people have contributed to one of the most detailed Victorian gaming and fiction settings available. Hopefully many more people will enjoy the setting through this web page and some will add their own ideas.

Terry Sofian