![]() ![]() Using the energy transfer rate of the classical Horse Power given to be about 2,684.52 kJ/h, we can deduct, that the hp is roughly equal to:Ġ.07742 kj/h / 2,684.52 kJ/h = 0.00288% of a standard horse power. If we now compare this to the given stored energy ingame of 2.000 hph ( hp -hours) per block of height, one hph equals to 77.42 J/h. the Timberborn planet has the same gravity as planet earthĪctual energy stored in the Gravity BatteryĪssuming the weight is 100% iron with a density of 7,874 g/cm³, this equals a total weight of 15.784 metric tons.Ĭalculating the stored potential energy with the formula E = m*g*h where m is the mass in kg, g is the gravitational acceleration of 9,81m/s² and h is a height of 1m results in a total potential energy of:ġ5784kg * 9,81m/s² * 1m = 154.84 kJ of stored energy per meter height.the gravity battery weight is equal to 2 m³ of iron.Since the unit hp can easily be confused with the real life horse power, the following calculation will clear up the difference between the two on the basis of the Gravity Battery. These inconsistencies should be considered by a player when planning their production chains and power grid(s). If a powered building receives 100% of the power it requires it will be 100% efficient, but if a powered building receives less than 100% of the power it requires that building will have less than 100% efficiency. ![]() The same is also true for power generation buildings. ![]() Powered buildings are not guaranteed to always run at 100% efficiency. Powered buildings are buildings that require access to power in order for them to function. Roofs share power only at their bottom surface.
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