Saline solution is delivered into the vein of a patient through a needle. The salinesolution has a viscosity of 0.00037 Pa.s, a density of 1,060 kg/m³, and is deliveredthrough a 7.0-cm long needle with an internal diameter of 0.24 mm directly into thepatient's vein in which the blood pressure is 130 mmHg (1 mmHg3D133.4 Pa). Thesaline solution must be delivered at a flow rate of 0.04×10-6 m³/s. How high mustthe saline solution be suspended in order to achieve this flow rate? Assumeacceleration due to gravity is 9.81 m/s?.

Solution: Given Data: Viscosity=0.00037 Pa.sDensity=1060 kg/m3Internal diameter of needle=0.24…

Answered: Saline solution is delivered into the…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Number 15. complete solution and box final answer
Total suspended particulate matter concentration in ambient air is to be measured using a high- volume sampler. The filter used for this purpose had an initial dry weight of 9.787 g. The filter was mounted in the sampler and the initial air flow rate through the filter was set at 1.5 m³/min. Sampling continued for 24 hours. The airflow after 24 hours was measured to be 1.4 m³/min. The dry weight of the filter paper after 24 hours sampling was 10.283 g. Assuming a linear decline in the air flow rate during sampling, what is the 24 hour average TSP concentration in the ambient air(in 10-6 g/m³?
Liquid alum is delivered to a water treatment plant which contains 642.3 milligrams of alum per milliliter of liquid solution. Jar tests indicate that the best alum dose is 8 mg/L. Determine the setting on the liquid alum chemical feeder in milliliters per minute when the flow is 2.2 MGD.
Determine the magnitude of the reaction at A and B dur to hydrostatic pressure?
A system is designed to treat contaminant X with two PFRs in series. The concentration of contaminant X entering the first PFR is 120 mg/L and the inflow is 420 L/s. The first PFR is 5000 m³ in size, and the contaminant reacts via first order kinetics with a k value of 0.50 (1/hr). The second tank is being built so that the treatment facility can meet the permit level for contaminant X of 9.4 mg/L. What size do they need to make the second tank in m³?

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