New game or saved game without the mod should be fine. Also it's link to the level, not everything available from level 1 (on NPC, still possible at the forge). Less Common : Reduced the quantity and probability for everything to spawn on NPCs.Optional file for this : change the Book & vial holder to 5% magicka / stamina regen instead of +20 maximum magicka / stamina.Big Belt Bag have their own category, +60.Small pouches now have their own category, +5.Realistic Enchantement - Fortify enchantement has been changed :.Slightly increase the value of the Leather Big Belt Bag.Dark Brotherhood bandoliers & pouches weight decreased (lore-wise they would use lighter material to decrease the sound and encumbrance generated by those).Slighlty increase the weight of the imperial bandoliers.Slightly increase the price of the imperial bandoliers & pouches.Slighlty increase the weight of all larges bandoliers.Rename all of the bags, pouches and bandoliers to be " - ".Hopefully it will always be difficult to take over the world. So, in the end, this floating base would be possible, but perhaps not very practical. Clouds will make your headquarters harder to spot, especially if you camouflage your base to look like one of them. You need to be a lower-altitude villain.īut it’s entirely possible to get your base to float around the level of clouds, which manage to float despite being made of water. This means that you couldn’t make your supervillain base on the edge of space. At super high altitudes, the density can’t go below zero, so the change in density can’t be as great. Since the air on the top of the sphere pushes down and the air on the bottom pushes up, the buoyancy force really depends on how the density changes and not the actual value of the density. So could building your lair right at the edge of Earth’s atmosphere allow you to create a floating sphere of a more manageable size? I’m afraid not. But when you get really high, the air gets super thin-its density nearly hits zero when you reach outer space. These calculations assume the density of air decreases linearly with altitude.
The tiny buoyancy force is essentially insignificant compared to gravity’s pull on an object with this mass, and it can’t overcome it. The rubber shell of the basketball is much thicker and heavier than the wall of the balloon. It doesn’t matter what you put in the basketball it will still fall. If you can get the mass of the rubber plus the helium gas to be the same as the upward-pushing buoyancy force, the balloon floats. And if you fill it with helium, a gas that has a lower density than air, you can compensate for the mass of the balloon’s thin surface and achieve equilibrium. That's tiny.īut the rubber shell of a balloon is thin, so the gravitational force is not very large. Calculating the volume and plugging into the F air equation, I get an upward-pushing force of 0.049 newtons. Let's assume both a basketball and a balloon have a diameter of 20 cm. Then why does a party balloon float but a basketball of about the same size falls? It has to do with whether the upward-pushing buoyancy force is enough to overcome the gravitational force that is pulling the object downwards. It doesn't matter what the balloon is made of or what it's filled with. Notice that this total force from the air only depends on collisions between the air molecules and the surface. This works for any shaped object where V is the volume.