Blood is flowing at constant velocity from the heart to the top of head, covering a vertical distance of 60 cm. Calculate the minimum pressure required to force the blood from the heart to the head top. Density of blood is `("1.07 g/cm"^3)`

Calculate the minimum pressure difference required to force the blood from the heart to the top of the head (vertical distance about 50 cm). Neglect friction.

What is the minimum pressure required to force the blood from the heart to the top of the head (vertical distance 0.5m ) ? [density of blood is 1040 kg m^(-3). Fraction is to be neglected and g=9.8ms^(-2) ]

What is the minimum pressure required to force blood from the heart to the top of the heart (a vertical distance of 50 cm) ? Assume that the density of blood is 1.04 "gcm"^(-3) and neglect friction.

Calculate the minimum pressure required to force the blood from the heart to the top of the head (vercical distance = 40 cm). Assume that the denisity of blood to be 1.04 g cm^(3) . Friction is to be neglected.

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) ?

The human heart discharges 75 cm^(3) of blood per beat against an average pressure of 10 cm of Hg . Assuming that the pulse frequency is 75 per minute, the power of the heart is (density of Hg = 13.6 gm cm^(-3) )

Blood freezes at 272.44 K and a solution of 3.0 g of urea in 250 g of water freezes at 272.63 K . Calculate the osmotic pressure of blood at 300 K . (Assume density of blood at 300 K to be 1 g c c^(-1) )

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?

While giving a patient a blood transfusion, a bottle is set up to pass the blood through a needle of length 2 cm and internal diameter 0.35 mm. If the level of blood is 1.4 m above needle, calculate the rate of flow and speed of the blood coming out of the needle. Take, coefficient of viscosity of blood =0.238 poise. Density of blood =1020" kg/m"^(3) .

From the top of a tower, a particle is thrown vertically downwards with a velocity of 10 m//s . The ratio of the distances, covered by it in the 3rd and 2nd seconds of the motion is ("Take" g = 10 m//s^2) .