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Biofluid Mechanics is defined as a mechanics that majorly concerned with the biological problems by applying the principles of fluid mechanics. It mainly concerned with the method of fluid application instead of its developing. It is majorly used in the cardiovascular system and also involves the various techniques such as ultrasound, MRI, LDA and many more. Biofluid Mechanics deals with the various major topics, including Navier-Stokes equations, Physiological fluid dynamics, Respiratory flow patterns, Models of Biofluid Flows, Circulatory Biofluid Mechanics, Fluid Mechanics of Heart Valves, Aquatic animal propulsion, and many more. Blood rheology mainly concerned with the flow properties of blood. These properties can be used as quality control tools which act as an imperative tool to maintain the precedence of products. Various models that take place in the non-Newtonian models are casson, carreau and power law. Its application is found in the various areas of materials science engineering, including physiology, pharmaceutics, and many more.

Computational Biofluid Mechanics can be defined as a sub-discipline of the physiology that enables user to determine the attributes of the living system in the manner of physiology. It is mainly used in the biomedical society where they are using computational and mathematical models to build the modern biological devices which can be used in the treatment of patients. Major topics that fall under the Computational Biofluid Mechanics are synovial fluid flow, peristaltic transport, drug delivery systems, blood flow, porosity in physiology and many more.

Biorheology mainly concerned with the flow of fluids in biological systems. Rheology is based on the postulate of fluid mechanism. Biorheology deals with the motion of gases in respiratory system, swimming, flow of fluids in plants, etc. fluid viscosity is the key concept that involved in the Biorheology. Major concepts that involves in this are hemorheology, hemodynamics, and many more.

Hemodynamic is majorly involved in the cardiovascular physiology that mainly concerned with the development of the intensity of pump to increase the blood circulation in the cardiovascular system. Blood flow is acts as a mandatory condition for supplying the oxygen to all tissues. Adaption in the various level of blood pressure can be determined by the four modulators of the hemodynamic which invlove inotropy, chronotropy, vasoactivity and intravascular volume.

Moreover, photoplethysmogram can be defined as a device that is mainly used in the measurement of organs. It is acquired by using a pulse oximeter and can be used for the various purposes, such as monitoring the heart rate, depth of anesthesia, cardiac cycle, hypervolemia and monitoring respiration

Furthermore, Biofluid Mechanics field involves the various major topics to study, such as Non-Newtonian Fluids, Flow visualization, Aerodynamics of phonation, Hard tissue, Blood flow, Pulse propagation, Velocity measurements, Models for Flows, Biological materials, Aerodynamics of speech, Soft tissue, and many more. Some of the Advanced Concepts with which it deals are listed below:

- LVAD and RVAD devices
- Orthopedic biomechanics
- Circulatory biofluid mechanics
- Macrocirculation & Microcirculation
- Flux-Vector Splitting (FVS) methods
- Casson model
- LDFA
- PIV measurements

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- Fluid mechanical principles , operation of physiologic systems, blood rheology, mechanics of circulation, arterial wave propagation, oscillatory air and liquid flows and , transport of dissolved or suspended solutes, blood flow through the arterial system and air flow through the pulmonary system.

**Biofluid Mechanics Assignment help**

- Fluid properties of biological materials , laws (mass, momentum, and energy) , cardiovascular system , approximation methods and constraints in fluid mechanics, Biorheology and cardiovascular prosthetics , steady and unsteady biological flows, wave propagation theory and oscillatory flow, biofluid devices , flow measurement techniques , diseased states.
- Properties of Newtonian and non-Newtonian fluids, hydrostatic and dynamic forces, principles of continuity, conservations of mass, energy and momentum and their applications, laminar and turbulent flows and boundary layer, introduction to Navier Stokes, dimensional analysis and similarity, blood flow in the cardiovascular system, gas exchange in the pulmonary system, blood flow and sodium transport in the kidney.
- Transport phenomena,cardiac and vascular mechanics,cardiovascular modelling,cardiovascular devices,,cardiovascular device,,biomimetic fluid dynamics ,Kinematics of fluid flow and flow topology,
- Governing equations ,fundamental fluid dynamics Unsteady Flow,Computational Fluid Dynamics,Non-dimensional numbers in Biofluids,Flow-dependency principle,Energetics ,Ideas on biological optimization ,
- Growth and remodeling,allometry,Principles of comparative biomechanics ,Vortex Dynamics in Nature,Creeping Flow and micro-biological fluid dynamics,Bioreactors,Cardiovascular fluid dynamics,
- Experimental techniques,Particle Image Velocimetry,micro PIV,Confocal and two-photon microscopic velocimetry,Analysis of flow field data ,Valves in Nature,Flow Control,Optimization Techniques ,Aquatic propulsion,definitions of efficiency,constructal theory,analysis of collective motion of organisms
- fluid dynamics,Solid mechanics,Cardiovascular physiology,Blood rheology ,Blood vessel mechanics,Hydrostatics ,Steady flow models,Unsteady flow ,Non-uniform geometric models,Native heart valve dynamics,
- Prosthetic heart valve fluid dynamics,Vascular therapeutic techniques,Fluid dynamic measurement techniques relevant to blood flow,Computational fluid dynamics