stabby_cicada@slrpnk.net to Solarpunk@slrpnk.net · 7 months agoconsider the implications for a post scarcity futureslrpnk.netimagemessage-square397fedilinkarrow-up11.73Karrow-down171
arrow-up11.66Karrow-down1imageconsider the implications for a post scarcity futureslrpnk.netstabby_cicada@slrpnk.net to Solarpunk@slrpnk.net · 7 months agomessage-square397fedilink
minus-squareuis@lemm.eelinkfedilinkarrow-up3arrow-down7·7 months agoThat’s why I say low frequency is problem, but high is not as much.
minus-squareareyouevenreal@lemm.eelinkfedilinkarrow-up4·7 months 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-up3·7 months agoNot necessarily(see field windings), but higher voltage is indeed a problem
minus-squareareyouevenreal@lemm.eelinkfedilinkarrow-up2·7 months 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-up3·7 months 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.
I don’t think you said why?
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.
some clocks are bound to grid frequency. It’s the easiest most accessible way to clock time semi accurately.