← Back to context Comment by fluoridation 11 hours ago That just means the walls of the heart would need to grow thicker. Are they at the limit already? 4 comments fluoridation Reply Qem 11 hours ago Wall thickness increasing by x increases cross section/power by x^2, but also increases chamber volume/workload by x^3. So workload outruns available power. It's because of this people abusing steroids get heart failure eventually. fluoridation 11 hours ago >chamber volume/workload by x^3. So workload outruns available power.What do you mean by workload? Are you referring to the oxygen cost per stroke, or what? Qem 9 hours ago Power demand. Volume pumped each cycle * (systolic pressure - diastolic pressure) / time. 1 reply →
Qem 11 hours ago Wall thickness increasing by x increases cross section/power by x^2, but also increases chamber volume/workload by x^3. So workload outruns available power. It's because of this people abusing steroids get heart failure eventually. fluoridation 11 hours ago >chamber volume/workload by x^3. So workload outruns available power.What do you mean by workload? Are you referring to the oxygen cost per stroke, or what? Qem 9 hours ago Power demand. Volume pumped each cycle * (systolic pressure - diastolic pressure) / time. 1 reply →
fluoridation 11 hours ago >chamber volume/workload by x^3. So workload outruns available power.What do you mean by workload? Are you referring to the oxygen cost per stroke, or what? Qem 9 hours ago Power demand. Volume pumped each cycle * (systolic pressure - diastolic pressure) / time. 1 reply →
Qem 9 hours ago Power demand. Volume pumped each cycle * (systolic pressure - diastolic pressure) / time. 1 reply →
Wall thickness increasing by x increases cross section/power by x^2, but also increases chamber volume/workload by x^3. So workload outruns available power. It's because of this people abusing steroids get heart failure eventually.
>chamber volume/workload by x^3. So workload outruns available power.
What do you mean by workload? Are you referring to the oxygen cost per stroke, or what?
Power demand. Volume pumped each cycle * (systolic pressure - diastolic pressure) / time.
1 reply →