Spec lists CEER of 11.4 which translates to 8000 btu / 11.4 CEER = 702 watts. Other large variable is outside condenser temperature where high outside temp causes higher compressor pressures to work against raising power consumption a bit more. As inside cools down and inside to outside temperature delta increases this increases required compression ratio of compressor causing an increase in power consumption (until unit cycles compressor off after achieving set indoor temperature).
I failed math. I want to know if my wall socket of 150 V can handle 8000 BTU Someone please tell me I don't wanna blow out my house fuses. Or start a electric fire in my wall.
Spec lists CEER of 11.4 which translates to 8000 btu / 11.4 CEER = 702 watts. Other large variable is outside condenser temperature where high outside temp causes higher compressor pressures to work against raising power consumption a bit more. As inside cools down and inside to outside temperature delta increases this increases required compression ratio of compressor causing an increase in power consumption (until unit cycles compressor off after achieving set indoor temperature).
You da real mvp 😎
Valuable comment for me thank you
Thank you
Jeez ..... basic math. 1 btu equals .293 watts. No need for a video.
bro are you retarded? This video is about how much wattage the air conditioner uses to work, not about btu to wattage conversion. holy fuck your dumb.
Jimbob, for something more helpful, see @rcinfla9012's comment nearby.
Why tell everyone your mom didn't love you???
I failed math. I want to know if my wall socket of 150 V can handle 8000 BTU
Someone please tell me I don't wanna blow out my house fuses. Or start a electric fire in my wall.
@@pauline_raabe you can Easily run an 8,000btu ac on a 15 amp rated socket... the ac unit will draw at most, half those rated amps