stabby_cicada@slrpnk.net to Solarpunk@slrpnk.net · 2 years agoconsider the implications for a post scarcity futureslrpnk.netimagemessage-square395fedilinkarrow-up11.74Karrow-down172
arrow-up11.67Karrow-down1imageconsider the implications for a post scarcity futureslrpnk.netstabby_cicada@slrpnk.net to Solarpunk@slrpnk.net · 2 years agomessage-square395fedilink
minus-squareuis@lemm.eelinkfedilinkarrow-up3arrow-down7·2 years agoThat’s why I say low frequency is problem, but high is not as much.
minus-squareareyouevenreal@lemm.eelinkfedilinkarrow-up4·2 years agoIt’s not just about frequency - though that is important for devices that synchronize using the grid. When your frequency is going up because of too much power so will voltage. Think about that for a minute.
minus-squareuis@lemm.eelinkfedilinkarrow-up3·2 years agoNot necessarily(see field windings), but higher voltage is indeed a problem
minus-squareareyouevenreal@lemm.eelinkfedilinkarrow-up2·2 years agoNot everything on the grid is a motor. Even if it was you would still need to rebuild the motor to change field windings.
minus-squareKillingTimeItself@lemmy.dbzer0.comlinkfedilinkEnglisharrow-up3·2 years agosome clocks are bound to grid frequency. It’s the easiest most accessible way to clock time semi accurately.
That’s why I say low frequency is problem, but high is not as much.
It’s not just about frequency - though that is important for devices that synchronize using the grid. When your frequency is going up because of too much power so will voltage. Think about that for a minute.
Not necessarily(see field windings), but higher voltage is indeed a problem
Not everything on the grid is a motor. Even if it was you would still need to rebuild the motor to change field windings.
I don’t think you said why?
some clocks are bound to grid frequency. It’s the easiest most accessible way to clock time semi accurately.