Henry's law

Henry's law

Block test 2

Block test 2

Introduction to the cardiovascular system

Introduction to the lymphatic system

Anatomy of the heart

Anatomy of the coronary circulation

Anatomy clinical correlates: Heart

Anatomy of the superior mediastinum

Anatomy of the inferior mediastinum

Anatomy clinical correlates: Mediastinum

Development of the cardiovascular system

Fetal circulation

Cardiac muscle histology

Artery and vein histology

Cardiovascular system anatomy and physiology

Coronary circulation

Blood pressure, blood flow, and resistance

Pressures in the cardiovascular system

Laminar flow and Reynolds number

Resistance to blood flow

Compliance of blood vessels

Control of blood flow circulation

Microcirculation and Starling forces

Measuring cardiac output (Fick principle)

Stroke volume, ejection fraction, and cardiac output

Cardiac contractility

Frank-Starling relationship

Cardiac preload

Cardiac afterload

Cardiac and vascular function curves

Altering cardiac and vascular function curves

Pressure-volume loops

Changes in pressure-volume loops

Physiological changes during exercise

Cardiovascular changes during postural change

Normal heart sounds

Action potentials in myocytes

Action potentials in pacemaker cells

Excitability and refractory periods

Cardiac excitation-contraction coupling

Cardiac conduction system

Cardiac conduction velocity

ECG normal sinus rhythm

ECG QRS transition

ECG rate and rhythm

Renin-angiotensin-aldosterone system

Anatomy of the larynx and trachea

Bones and joints of the thoracic wall

Muscles of the thoracic wall

Vessels and nerves of the thoracic wall

Anatomy of the pleura

Anatomy of the lungs and tracheobronchial tree

Anatomy of the diaphragm

Anatomy clinical correlates: Thoracic wall

Anatomy clinical correlates: Pleura and lungs

Development of the respiratory system

Trachea and bronchi histology

Bronchioles and alveoli histology

Respiratory system anatomy and physiology

Reading a chest X-ray

Lung volumes and capacities

Anatomic and physiologic dead space

Alveolar surface tension and surfactant

Compliance of lungs and chest wall

Combined pressure-volume curves for the lung and chest wall

Zones of pulmonary blood flow

Regulation of pulmonary blood flow

Pulmonary shunts

Ventilation-perfusion ratios and V/Q mismatch

Breathing cycle

Airflow, pressure, and resistance

Ideal (general) gas law

Gas exchange in the lungs, blood and tissues

Diffusion-limited and perfusion-limited gas exchange

Alveolar gas equation

Oxygen binding capacity and oxygen content

Oxygen-hemoglobin dissociation curve

Carbon dioxide transport in blood

Breathing control

Pulmonary chemoreceptors and mechanoreceptors

Pulmonary changes at high altitude and altitude sickness

Pulmonary changes during exercise

Neonatal respiratory distress syndrome

Pulmonary embolism

Deep vein thrombosis and pulmonary embolism: Pathology review

Obstructive lung diseases: Pathology review

Restrictive lung diseases: Pathology review

Antihistamines for allergies

Bronchodilators: Beta 2-agonists and muscarinic antagonists

Blood components

Blood histology

Flashcards

Henry's law

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Key Takeaways

Henry's law states that the amount of a gas that will dissolve in a liquid is proportional to the partial pressure of the gas above the liquid. This law explains why gasses with high solubility will have a higher concentration in the blood than less soluble gasses, despite having the same partial pressure.