A human's heart is 0.13 meters of blood per minute through 4 x 10-3mm blood arteries pressure) on different parts of the body. To keep this process going Calculation of potency of production Kejia in horsepower (blood density 1.03x10 kg / m ', 984

The human heart forces 4000cm^(3) of blood per minute through the arteries under pressure of 130mm . The density of blood is 1.03g//c c . What is the horse power of the heart ?

The average human heart forces four litre of blood per minute through arteries a pressure of 125 mm. If the density of blood is 1.03xx10^(3)kg//m^(3) then the power of heart is :

The average human heart forces four litre of blood per minute through arteries a pressure of 125 mm. If the density of blood is 1.03xx10^(3)kg//m^(3) then the power of heart is :

A human heart discharges 75 cc of blood the through the artcries at each beat against an average pressure of 10 cm ofmercutry.Assuming that the pulse frequency is 72 per minute,the rate of working of heart is watt is (density of mercury = 13.6 g cm^-3 and g = 9.8 m s^(-2) ):

5000 cm^(3) of blood per minute is fored by heart through the arteries under a pressure of 150 mm. What will be the horse power of heart if density of blood is 1.03 " g " cm^(-3) ?

A human heart pumps 50 cc of blood per heart besat at a pressure of 1.5 m of water. If the heart beats are 75 per minute then average pumping power of heart ( g = 10 m/s^2 )

Blood pressure in Argentinosaurus. (a) If this long-necked, gigantic sauropod had a head height of 18 m and a heart height of 8.0 m, what (hydrostatic) gauge pressure in its blood was required at the heart such that the blood pressure at the brain was 80 torr (just enough to perfuse the brain with blood)? Assume the blood had a density of 1.06 xx 10 kg//m^(3) . (b) What was the blood pressure (in torr or mm Hg) at the feet?

The human heart discharges 75 cc of blood through the arteries at each heart against an average presure of 10cm of mercury. Assuming that the pulse frequency is 72 per minute , the rate of working of heart in watt is (Density of mercury = 13.6 gm//cc and g = 9.8 m//s^(2)) .

The heart of man pumps 5 liter of blood through the arteries per minute at a pressure of 150 mm of mercury. If the density of mercury be 13.6 xx10^3 kg//m^3 and g= 10m//s^2 , The power of heart in watt is

Giraffe bending to drink. In a giraffe with its head 1.8 m above its heart, and its heart 2.0 m above its feet, the (hydrostatic) gauge pressure in the blood at its heart is 250 torr. Assume that the giraffe stands upright and the blood density is 1.06 xx 10^(3) kg// m^(3) . In torr (or mm Hg), find the (gauge) blood pressure (a) at the brain (the pressure is enough to perfuse the brain with blood, to keep the giraffe from fainting) and (b) at the feet (the pressure must be countered by tight-fitting skin acting like a pressure stocking). (c) If the giraffe were to lower its head to drink from a pond without splaying its legs and moving slowly, what would be the increase in the blood pressure in the brain? (Such action would probably be lethal.)