A patients is to be given an intravenous transfusion of blood. The blood is to flow...

A blood transfusion is being set up in an emergency room for an accident victim. Blood...

A blood transfusion is being set up in an emergency room for an accident victim. Blood has a density of 1060 kg/m3 and a viscosity of 4.0 × 10-3 Pa·s. The needle being used has a length of 3.0 cm and an inner radius of 0.25 mm. The doctor wishes to use a volume flow rate through the needle of 3.9 × 10-8 m3/s. What is the distance h above the victim's arm where the level of the blood in...

A patient receives a blood transfusion through a needle of radius 0.24 mm and length 2.3...

A patient receives a blood transfusion through a needle of radius 0.24 mm and length 2.3 cm, The density of blood is 1,050 kg/m3. The bottle supplying the blood is 0.500 m above the patient's arm. What is the rate of flow through the needle?

Needle 3cm long inside diameter 1mm. The flow rate has to be 5cm^3/minute. How high above...

Needle 3cm long inside diameter 1mm. The flow rate has to be 5cm^3/minute. How high above the needle should you place the bottle to make sure that the flow rate is 5 cm^3/minute? Assume the blood pressure is 100 torr above atm.

An intravenous (IV) system is supplying saline solution to a patient at the rate of 0.07...

An intravenous (IV) system is supplying saline solution to a patient at the rate of 0.07 cm3/s through a needle of radius 0.2 mm and length 4.64 cm. What gauge pressure (in Pa) is needed at the entrance of the needle to cause this flow? Assume that the viscosity of the saline solution to be the same as that of water, η = 1.0*10-3 Pa-s, and that the gauge pressure of the blood in the vein is 1500 Pa. Enter...

Saline solution is delivered into the vein of a patient through a needle. The saline solution...

Saline solution is delivered into the vein of a patient through a needle. The saline solution has a viscosity of 0.00037 Pa.s, a density of 1,060 kg/m3, and is delivered through a 7.0-cm long needle with an internal diameter of 0.24 mm directly into the patient’s vein in which the blood pressure is 130 mmHg (1 mmHg=133.4 Pa). The saline solution must be delivered at a flow rate of 0.04×10-6 m3/s. How high must the saline solution be suspended in...

To deliver an intravenous solution at 0.20 L/hr to a patient through a needle, a pressure...

To deliver an intravenous solution at 0.20 L/hr to a patient through a needle, a pressure difference between the pressure where the solution enters the needle and the patient’s blood pressure is needed. If the needle has a radius of 1.5 x 10-4 m and is 0.025 m long, assuming a viscosity of 1.0 x 10-3 (N/m2) s for the solution, what must be the difference between solution pressure and the pressure in the vein of the patient? (A) 3.1...

1) When a patient receives an injection, fluid passes from a cylinder with a plunger in...

1) When a patient receives an injection, fluid passes from a cylinder with a plunger in it, through a narrow, hollow needle, and into the patient’s arm. a. Why will fluid travel more rapidly through the needle if the nurse squeezes harder on the plunger? b. As the fluid flows out of the needle and slows down in the patient’s tissue, what happens to its pressure? c. Why doesn’t the blood flow back out of the vein when the needle...

1) A scuba diver swims below the surface, breathing air from tanks of her scuba gear....

1) A scuba diver swims below the surface, breathing air from tanks of her scuba gear. a. It’s easiest for her to maintain a constant depth if the buoyant force on her and her equipment exactly balances their weight. How should her average density compare with that of the water around her? b. When she is 20 m below the surface of the water, what is the pressure pushing inward on her chest? c. When she breathes, she expects air...

This question considers blood pressure in living creatures. The following values for blood may be useful:...

This question considers blood pressure in living creatures. The following values for blood may be useful: viscosity = 3 x 10-3 Pa s density = 1060 kg/m3. (a) A bug sucks blood from other creatures through a small tube, 2 x 10-4 m long and with a radius of 5 x 10-6 m. The observed flow rate is 3.3 x 10-10 m3/s. How much pressure difference must the bug create to achieve this? (1.5 marks) (b) When I’m upright, my...

a) i. Explain the difference between elastic and plastic behaviour. [2 marks] ii. Explain how stretching...

a) i. Explain the difference between elastic and plastic behaviour. [2 marks] ii. Explain how stretching an object gives rise to internal shear. [3 marks] iii. What is meant when a material is described as having non-isotropic properties? [1 mark] b) Water circulates throughout a house in a hot water heating system. The water is pumped at a speed of 0.50 ms–1 through a 4.0 cm diameter pipe in the basement at a pressure of 3.0 x 105 Pa. What...