Biology Chapter 10 Review - ABeka

Description

Questions at the end of the Chapter, ABeka
Kelda Brenny
Quiz by Kelda Brenny, updated more than 1 year ago
Kelda Brenny
Created by Kelda Brenny about 8 years ago
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Resource summary

Question 1

Question
The 3 primary organs of the cardiovascular system are: (think about what the word means.... cardio + vascular)
Answer
  • heart
  • lungs
  • blood vessels
  • blood

Question 2

Question
What are the three categories of blood proteins and their functions? 1.) [blank_start]albumin[blank_end] – regulates the amount of water in the blood. 2.) [blank_start]globulins[blank_end] – help transport fats throughout the body and helps fight infections. 3.) [blank_start]fibrinogen[blank_end] - involved in blood clotting
Answer
  • albumin
  • globulins
  • fibrinogen
  • aluminium
  • fiber

Question 3

Question
Describe the functions of the different types of blood cells: 1.) [blank_start]Red blood cells[blank_end] carry oxygen. 2.) [blank_start]White blood cells[blank_end] produce antibodies and help fight infections. 3.) [blank_start]Platelets[blank_end] initiate blood clotting. They start the blood-clotting process.
Answer
  • Red blood cells
  • White blood cells
  • Platelets

Question 4

Question
What are the four basic types of blood in the ABO group?
Answer
  • A
  • B
  • C
  • AB
  • O

Question 5

Question
The plural of atrium is [blank_start]atria[blank_end]. The function of the atria is to ensure that the thick-walled ventricles are fully inflated with blood. The atria send blood [blank_start]to the ventricles[blank_end]. The function of the ventricles is to force blood out of the heart and through the blood vessels to the rest of the body. The ventricles send blood [blank_start]out of the heart[blank_end] to the body.
Answer
  • atria
  • to the ventricles
  • out of the heart

Question 6

Question
There are four valves of the heart. The [blank_start]bicuspid (mitral) valve[blank_end] connects the left atrium and left ventricle. The [blank_start]tricuspid valve[blank_end] connects the right atrium and the right ventricle. The [blank_start]aortic semilunar valve[blank_end] allows blood to exit the left ventricle and enter the aorta. The [blank_start]pulmonary semilunar valve[blank_end] allows blood to exit the right ventricle and enter the pulmonary artery.
Answer
  • bicuspid (mitral) valve
  • tricuspid valve
  • aortic semilunar valve
  • pulmonary semilunar valve

Question 7

Question
These are the functions of the liver. It [blank_start]cleanses[blank_end] the blood... It [blank_start]destroys[blank_end] bacteria... It [blank_start]stores[blank_end] carbohydrates as glycogen... It [blank_start]produces[blank_end] several blood proteins... It [blank_start]supplies[blank_end] the body cells with food when food supplies run low...
Answer
  • cleanses
  • destroys
  • stores
  • produces
  • supplies

Question 8

Question
Hypertension means high blood pressure.
Answer
  • True
  • False

Question 9

Question
The leading cause of [blank_start]death[blank_end] in the US is [blank_start]cardiovascular disease[blank_end].
Answer
  • death
  • cardiovascular disease
  • automobile accidents

Question 10

Question
Five habits that can lead to heart disease later in life.
Answer
  • obesity
  • lack of exercise
  • regular exercise
  • emotional stress
  • eating a high fiber diet
  • smoking (nicotine)
  • alcohol abuse

Question 11

Question
The structure that prevents food from entering the lungs is the [blank_start]epiglottis[blank_end].
Answer
  • epidermis
  • epiglottis
  • uvula

Question 12

Question
Common respiratory diseases and their causes: 1.) [blank_start]pneumonia[blank_end] - caused by bacterial or viral infections of the lining of the lungs 2.) tuberculosis - caused by a slow-growing bacteria that infects the lungs 3.) bronchitis - caused by an infection or from smoking. 4.) [blank_start]pleurisy[blank_end] - an inflammation of the pleura - can result from smoking 5.) bronchial asthma - caused bby allergies 6.) influenza- caused by viruses that infect the respiratory system 7.) [blank_start]common cold[blank_end] - caused by more than a hundred different types of viruses
Answer
  • pneumonia
  • pleurisy
  • common cold

Question 13

Question
[blank_start]Excessive blood loss[blank_end] can cause a person's blood pressure to fall to a [blank_start]critical low[blank_end] (a condition known as shock). The reduced blood flow deprives the heart of needed [blank_start]fuel and oxygen[blank_end].
Answer
  • Excessive blood loss
  • critical low
  • fuel and oxygen

Question 14

Question
[blank_start]Mismatched[blank_end] blood transfusions are dangerous because a person's [blank_start]immune system[blank_end] will attack blood cells it recognizes as foreign, with potentially [blank_start]fatal[blank_end] results.
Answer
  • Mismatched
  • immune system
  • fatal

Question 15

Question
Describe the path of blood through the circulation process - beginning with the vena cava and ending with the aorta. 1.) Oxygen-depleted Blood enters the heart via the [blank_start]Vena Cava[blank_end] 2.) into the Right Atrium 3.) through the [blank_start]Tricuspid Valve[blank_end] 4.) into the Right Ventricle 5.) through the [blank_start]Pulmonary Valve[blank_end] 6.) Oxygen-depleted Blood exits the heart through the Pulmonary Arteries 7.) into the Lungs 8.) Oxygen-rich Blood enters the heart via the Pulmonary Veins 9.) into the Left Atrium 10.) through the [blank_start]Mitral Valve[blank_end] 11.) into the Left Ventricle 12.) through the [blank_start]Aortic Valve[blank_end] 13.) Oxygen-rich Blood exits the heart via the [blank_start]Aorta[blank_end]
Answer
  • Vena Cava
  • Tricuspid Valve
  • Pulmonary Valve
  • Mitral Valve
  • Aortic Valve
  • Aorta

Question 16

Question
Cardiac muscle vs. Skeletal muscle Cardiac muscle cells are connected by intercalated disks, allowing them to [blank_start]contract as a unit.[blank_end] Cardiac muscle cells lack the fuel and oxygen storage systems of skeletal muscle cells to make [blank_start]room for more mitochondria[blank_end] "power plants". This feature allows cardiac muscle cells to [blank_start]generate large amounts of power[blank_end] for long periods [blank_start]without becoming tired[blank_end]. Cardiac muscle cells are [blank_start]self-stimulating[blank_end], allowing the heart to continue beating even if it is [blank_start]disconnected[blank_end] from the nervous system.
Answer
  • contract as a unit.
  • room for more mitochondria
  • generate large amounts of power
  • without becoming tired
  • self-stimulating
  • disconnected

Question 17

Question
External vs. Internal vs. Cellular respiration [blank_start]External[blank_end] respiration is breathing (inhaling and exhaling). [blank_start]Internal[blank_end] respiration is the exchange of oxygen and carbon dioxide between the blood cells and the tissue cells. [blank_start]Cellular[blank_end] respiration is the process of releasing energy by combining oxygen and food molecules within the cells.
Answer
  • External
  • Internal
  • Cellular

Question 18

Question
Describe the structure and function of the lungs. The lungs consist of bronchial tubes that end in small saclike structures called [blank_start]alveoli[blank_end]. Each alveolus is a microscopic, thin-walled structure surrounded by a network of [blank_start]capilaries[blank_end]. The design of the alveoli allows molecules of gases to pass freely through the membranes by [blank_start]diffusion[blank_end]. [blank_start]Oxygen[blank_end] molecules diffuse easily into the bloodstream through the thin walls of both the alveoli and the capillaries. [blank_start]Carbon dioxide[blank_end] and water vapor diffuse just as easily from the bloodstream into the air sacs.
Answer
  • alveoli
  • capilaries
  • diffusion
  • Oxygen
  • Carbon dioxide

Question 19

Question
How is spech produced? Speech is produced when [blank_start]air[blank_end] is forced out of the lungs and passes over the [blank_start]vocal cords[blank_end], producing steady sounds. These tones are modified into articulate speech by the mouth, throat, [blank_start]nasal cavity, and tongue[blank_end].
Answer
  • air
  • vocal cords
  • nasal cavity, and tongue

Question 20

Question
The brain regulates your heart rate and breathing rate. Heart and breathing rates are regulated by the [blank_start]autonomic nervous system[blank_end] and controlled by the [blank_start]medulla oblongata[blank_end] of the brain stem. Heart rate is regulated by signals that are transmitted rom the brain to the [blank_start]sino-atrial (S-A) node[blank_end], via the accelerator nerves and the vagus nerves. The S-A node is the heart's [blank_start]pacemaker[blank_end]. Breathing rate is controlled by impulses sent from the [blank_start]brain[blank_end] to the diaphragm and chest muscles when it is time to inhale and exhale. The breathing rate is sped up when the brain detects a high concentration of [blank_start]carbon dioxide[blank_end].
Answer
  • autonomic nervous system
  • medulla oblongata
  • sino-atrial (S-A) node
  • pacemaker
  • carbon dioxide
  • brain

Question 21

Question
Why are red blood cells [blank_start]dismantled[blank_end] by the spleen and liver instead of continually [blank_start]repairing[blank_end] themselves as most other cells do? Red blood cells [blank_start]cannot[blank_end] repair themselves because they do not have [blank_start]nuclei[blank_end].
Answer
  • nuclei
  • dismantled
  • repairing
  • cannot

Question 22

Question
During a heart transplant procedure, the nerves to the heart are not always reattached. How can the donated heart beat without being connected to the brain? The sinoatrial node and the [blank_start]self-stimulating property[blank_end] of cardiac muscle allow the heart to continue beating [blank_start]without[blank_end] being connected to the [blank_start]nervous system[blank_end].
Answer
  • self-stimulating property
  • without
  • nervous system

Question 23

Question
Normal inhalation at rest is considered an [blank_start]active[blank_end] process, but normal exhalation at rest is considered a [blank_start]passive[blank_end] process. Why? Expanding the thoracic cavity to inhale requres [blank_start]actively contracting[blank_end] the intercostal muscles and diaphragm. Shrinking the thoracic cavity to exhale occurs when these muscles [blank_start]relax[blank_end]; there are no muscles that pull the chest back to a smaller position. Although not mentioned in the text, muscle contraction is involved in [blank_start]forced[blank_end] exhalation, such as [blank_start]coughing[blank_end], sneezing, and exhalation during strenuous exercise.
Answer
  • active
  • passive
  • actively contracting
  • relax
  • forced
  • coughing
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