Human Circulatory System

21 carte

Detailed biology lesson notes cover the human circulatory system, including blood components (red blood cells, white blood cells, platelets, plasma) and their functions, the structure and action of the heart, and adaptations for efficient oxygen transport and immune response.

21 carte

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Domanda

How do gases primarily move during gaseous exchange in plants?

Risposta

Gases move by diffusion through pores called stomata, moving from an area of high concentration to one of low concentration.

Domanda

What is the function of the alveoli in the human lungs?

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Alveoli are tiny air sacs adapted for gaseous exchange, allowing oxygen to diffuse into the blood and carbon dioxide to diffuse out.

Domanda

Name two adaptations of the alveoli for efficient gas exchange.

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They have a large surface area, a rich blood supply from capillaries, and walls that are only one cell thick.

Domanda

How does emphysema affect the respiratory system?

Risposta

It involves the bursting and fusing of alveoli walls, which greatly reduces the surface area available for efficient gaseous exchange.

Domanda

What is the role of cilia and goblet cells in the trachea?

Risposta

Goblet cells secrete mucus to trap dust and microbes; cilia then waft this mucus away from the lungs.

Domanda

Why does breathing rate remain high for a short period after exercise?

Risposta

To repay the oxygen debt and to remove the extra carbon dioxide produced by the muscles during aerobic respiration.

Domanda

In the leaf experiment, why does the indicator turn yellow in the dark?

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The plant only respires, releasing CO₂, which increases its concentration and causes the hydrogen-carbonate indicator to turn yellow.

Domanda

What are the two types of vessels found in a plant's vascular bundle?

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The vascular bundle contains the xylem, which transports water and minerals, and the phloem, which transports sugars and amino acids.

Domanda

What is the function of white blood cells?

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They protect the body against pathogens through phagocytosis (engulfing them) or by producing antibodies to destroy them.

Domanda

How do platelets initiate blood clotting?

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Platelets produce a chemical that converts the plasma protein fibrinogen into fibrin, forming a mesh that creates a clot.

Domanda

What is the role of haemoglobin in red blood cells?

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Haemoglobin is a protein that binds to oxygen in the lungs, forming oxyhaemoglobin to transport oxygen throughout the body.

Domanda

How does a plant's gas exchange differ at night compared to the day?

Risposta

At night, without photosynthesis, plants only respire. This results in a net intake of oxygen and a net release of carbon dioxide.

Domanda

What is one key adaptation of a red blood cell?

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They lack a nucleus to maximize space for haemoglobin, and have a biconcave shape to increase surface area for diffusion.

Domanda

How do vaccines create immunity?

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They introduce a weakened or dead pathogen, prompting lymphocytes to create antibodies and memory cells for future protection.

Domanda

What is the function of the diaphragm during inhalation?

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The diaphragm contracts and flattens, increasing the volume of the chest cavity and drawing air into the lungs.

Domanda

What are the chemicals in tobacco smoke that cause cancer called?

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Cancer-causing chemicals found in tobacco smoke are known as carcinogens.

Domanda

How do lymphocytes differ from phagocytes?

Risposta

Lymphocytes produce specific antibodies to target pathogens, while phagocytes engulf and digest them in a non-specific way.

Domanda

What is the primary component and function of blood plasma?

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Plasma is over 90% water and its main role is to transport cells, hormones, CO₂, and digested food around the body.

Domanda

Why are the walls of both alveoli and capillaries only one cell thick?

Risposta

This creates a very short diffusion distance, which allows for rapid and efficient exchange of gases between the lungs and the blood.

Domanda

What is the function of the valves inside the heart?

Risposta

Valves prevent the backflow of blood, ensuring it flows in only one correct direction through the heart chambers.

Domanda

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Gaseous Exchange in Plants

Gases move by diffusion through stomata in leaves.
Duringphotosynthesis: CO₂ enters, O₂ exits.
During respiration: O₂ enters, CO₂ exits.
Respiration occurs 24 hours a day. Photosynthesis requires sunlight.

Investigating the effect of light on net gas exchange

Uses hydrogen-carbonate indicator to measure CO₂ levels.
Test Tube 1 (Control): No leaf, CO₂ stable → Orange.
Test Tube 2 (No Light): Leaf respires, no photosynthesis, CO₂ increases → Yellow.
Test Tube 3 (Full Light): Photosynthesis > Respiration, CO₂ decreases → Purple.
Test Tube 4 (Partial Light): Photosynthesis ≈ Respiration, CO₂ stable → Orange.

Gaseous Exchange in Humans

Lungs are adapted organs for gas exchange between environment and blood.

Structures Involved in Gaseous Exchange (Respiratory System)

Structure	Function
Trachea	Tube with incomplete cartilage rings, carries air to lungs; lined with mucus-producing cells and cilia.
Bronchi	Tubes carrying air to the lungs.
Bronchioles	Tiny tubes carrying air to alveoli.
Alveoli	Tiny air sacs adapted for gas exchange.
Diaphragm	Dome-shaped muscle, aids breathing, separates thorax/abdomen.
Ribs	Bones protecting and ventilating lungs.
Intercostalmuscles	Move ribs for ventilation.
Pleural membranes	Thin, moist membranes, airtight seal around lungs.

Ventilation / Breathing

Movement of air into/out of lungs,requires pressure difference and airtight thoracic cavity.
Driven by intercostal muscles and diaphragm changing lung volume/pressure.

Alveoli

Approx. 700 million tiny air sacs, surrounded by blood capillaries.
Diffusion occurs based on concentration gradients.
CO₂ diffuses from blood into alveoli for exhalation.
O₂ diffuses into red blood cells (forming oxyhaemoglobin) to be pumped around the body.

Adaptations of theAlveoli for Efficient Gaseous Exchange

Large surface area to volume ratio: Increases diffusion rate.
Moist surfaces: Helps gases dissolve, increases diffusion rate.
Fine network of blood capillaries: Rich blood supply, maintains steep diffusion gradient.
Walls are one cell thick (alveoli and capillaries): Short diffusion distance, increases rate.
Walls are permeable.

Breathing and Exercise

Breathing rate increases with exercise to:
- Supply muscles with more oxygen for aerobic respiration.
- Remove extra carbon dioxide produced by aerobic respiration.
Rate remains high after exercise to remove waste products.

The Effect of Smoking on the Breathing System and Circulation

Smoking contributes to: Lung cancer, Chronic bronchitis, Emphysema.

Lung Cancer

Carcinogens (cancer-causing chemicals) in tobacco smoke and tar cause cell mutation.

Chronic Bronchitis

Healthy lungs: Cilia on bronchi/bronchioles, goblet cells secretemucus (traps microbes). Cilia waft mucus to throat.
Smoking: Tar damages/paralyses cilia, leading to bacteria buildup and chest infections.
Tar irritates airways, increasingmucus production that cannot be cleared → "smoker's cough".

Emphysema

Cigarette smoke damages alveoli walls, causing them to burst and fuse.
Reduces surface area forgas exchange.
Leads to lack of oxygen, severely restricting physical activity. No cure.

Smoking and CVD (Cardio Vascular Disease)

Damages circulatory system, increases risk of coronary heart disease.
Fatty deposits in coronary arteries → Blockage → Lack of oxygen to heart → Heart attack.
Carbon monoxide in smoke binds to haemoglobin (instead of O₂) → Heart works harder, higherblood pressure → Damages artery walls, increases clot risk.
Nicotine makes blood cells "sticky" and narrows blood vessels (vasoconstriction).

Transport in Plants

Vascular bundle: Network of veins from roots to leaves.
Xylem: Transports water and dissolved mineral ions.
Phloem: Transports sugars and amino acids.
Water absorbed by roots via osmosis.

Transportin Humans

Large multicellular organisms need a circulatory system due to small surface area to volume ratio.
Blood separated by centrifuge:
- Blood cells (bottom)
- Plasma (light straw-coloured liquid, top)

Red Blood Cells (Erythrocytes)

Made in bone marrow.
Function: Carry oxygen around the body.

Properties

Biconcave shape: Large surface area to volume ratio, increases oxygen diffusion.
No nucleus: Allows more haemoglobin for oxygen transport.
Haemoglobin: Carrier protein, binds to oxygen forming oxyhaemoglobin.

White Blood Cells

Main function: Protect against disease-causing pathogens.
Two main types:
- Phagocytes (approx. 70%): Engulf pathogens (phagocytosis).
- Lymphocytes (approx. 30%): Produce antibodies.

Lymphocytes and Antibodies

Pathogens have antigens (markers).
Antibodies attach to antigens to destroy pathogens by:
- Causing bacteria to burst.
- Making bacteria stick together for easier ingestion by phagocytes.
- Neutralising toxins.
Memorycells: Some lymphocytes become memory cells, providing immunity to specific pathogens.
Secondary immune response: Faster, mass production of antibodies upon re-exposure.

Vaccines

Trick the body into initiatingan immune response to produce antibodies.
Contents: Dead pathogen, weakened pathogen strain, modified toxins, or isolated antigens.

Platelets

Small cell fragments.
Function: Help blood clot (e.g., when cut) to stop bleeding and prevent infection.
Produce chemical that converts plasma protein fibrinogen to fibrin, forming a clot.

Plasma

Over 90% water.
Function: Transports many substances around the body.

The Heart

Made of cardiac muscle (never tires).
Function: Pump blood around thebody and to lungs by contracting (systole) and relaxing (diastole).
Contains valves to ensure one-way blood flow.

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