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**1)** Imagine that an unprepared hiker goes for a long walk on a hot
day and gets lost. He has no water, he is nervous, and he is sweating
profusely. What effects will these conditions have on his endocrine
system, and how will the hormones that are secreted influence his renal
system?

**2)** When fluid intake equals fluid output, and there is a normal
distribution of solvent and solutes in the body\'s fluid compartments,
fluid \_\_\_\_\_\_\_\_ exists.

**3)** An accumulation of fluid in one area of the body, such that the
fluid is not available for use elsewhere, is known as fluid
\_\_\_\_\_\_\_\_\_.

**4)** An elevated level of potassium in the blood is referred to as
\_\_\_\_\_\_\_\_\_\_.

**5)** Changes in blood osmolarity within capillaries of the
hypothalamus are a signal for ADH release. The neurons that are
sensitive to these changes in osmolarity are \_\_\_\_\_\_\_\_\_.

**6)** Carbonic acid is referred to as \_\_\_\_\_\_\_\_\_ acid because
it is produced from a gas that evaporates quickly.

**7)** When bicarbonate acts as a weak base and accepts a proton, the
molecule \_\_\_\_\_\_\_\_ acid is formed.

**8)** When physiological systems cannot compensate for an acid-base
disturbance, and the deviation from normal pH becomes more persistent,
it is referred to as an acid-base \_\_\_\_\_\_\_\_.

**9)** At which stage of life is the percentage of fluid in the human
body highest?

A\) Infancy\
B) Childhood\
C) Middle age\
D) Advanced age

**10)** When comparing a lean adult female to a lean adult male, which
will most likely have a higher percentage of body fluid?

A\) The female\
B) The male

**11)** Fluid imbalances are more common in individuals with a
\_\_\_\_\_\_\_\_\_ percentage of body fluid.

A\) high\
B) low

**12)** Elderly individuals generally have a \_\_\_\_\_\_\_ percentage
of body fluid and are therefore \_\_\_\_\_\_\_ prone to fluid
imbalances.

A\) high; more\
B) high; less\
C) low; less\
D) low; more

**13)** A comparison of the two major body fluid compartments reveals
that

A\) two-thirds orthodontal fluid is outside our cells and one-third is
within our cells.\
B) two-thirds orthodontal fluid is within our cells and one-third is
outside our cells.\
C) half orthodontal fluid is within our cells and half is outside our
cells.\
D) six-sevenths of the total fluid is within our cells and one-seventh
is outside our cells.\
E) six-sevenths of the total fluid is outside our cells and one-seventh
are within our cells.

**14)** The plasma of our blood constitutes \_\_\_\_\_\_ than half of
the fluid in our body; plasma is part of the \_\_\_\_\_\_\_\_\_\_\_\_\_
fluid.

A\) more; intracellular\
B) more; extracellular\
C) less; intracellular\
D) less; extracellular

**15)** Interstitial fluid composes about \_\_\_\_\_\_\_\_ of the
body\'s extracellular fluid.

A\) one-tenth\
B) one-third\
C) one-half\
D) two-thirds\
E) nine-tenths

**16)** Cerebrospinal fluid of the central nervous system and synovial
fluid of joint capsules are both examples of

A\) intracellular fluid.\
B) extracellular fluid.

**17)** When compared to extracellular fluid, intracellular fluid
contains

A\) more potassium and more negatively charged proteins.\
B) more potassium but fewer negatively charged proteins.\
C) less potassium but more negatively charged proteins.\
D) less potassium endless negatively charged proteins.

**18)** Interstitial fluid has a relatively \_\_\_\_\_\_\_ concentration
of sodium and chloride; the concentrations of ions within the
interstitial fluid and blood plasma are very \_\_\_\_\_\_.

A\) high; similar\
B) high; different\
C) low; similar\
D) low; different

**19)** Which statement accurately describes the permeability to water
of the cell membrane and the capillary wall?

A\) Both the plasma membrane and the capillary wall are permeable to
water.\
B) The plasma membrane is permeable to water, but the capillary wall is
not.\
C) The plasma membrane is not permeable to water, but the capillary wall
is.\
D) Neither the plasma membrane nor the capillary wall is permeable to
water.

**20)** Drinking a liter of water will cause the osmolarity of blood
plasma to

A\) increase.\
B) decrease.

**21)** If someone runs a marathon through a desert while eating
pretzels and not drinking water, their plasma osmolarity

A\) rises and becomes hypertonic to the interstitial and intracellular
fluid compartments.\
B) rises and becomes hypotonic to the interstitial and intracellular
fluid compartments.\
C) decreases and becomes hypertonic to the interstitial and
intracellular fluid compartments.\
D) decreases and becomes hypotonic to the interstitial and intracellular
fluid compartments.

**22)** Which type of intake accounts for most of our daily fluid
intake?

A\) Metabolic water\
B) Preformed water

**23)** Aerobic cellular respiration and dehydration synthesis reactions
result in

A\) metabolic water intake.\
B) preformed water intake.\
C) insensible water output.\
D) preformed water output.\
E) obligatory water output.

**24)** Ingestion of food results in water

A\) intake, as food contains some water.\
B) output, as food absorbs water, and we lose more water through feces
than we gain through eating.

**25)** Water lost through feces is considered \_\_\_\_\_\_\_\_\_\_\_
water loss.

A\) sensible, obligatory\
B) sensible, facultative\
C) insensible, obligatory\
D) insensible, facultative

**26)** Facultative water loss is loss that

A\) occurs regardless of the state of hydration of the body.\
B) is controlled by hormone effects on the kidney.\
C) occurs through sweating and breathing.

**27)** In the condition of volume excess, fluid gain involves

A\) an increase in osmolarity of body fluid.\
B) a decrease in osmolarity of body fluid.\
C) no change in the osmolarity of body fluid.

**28)** If someone in an accident suffered severe burns as well as
hemorrhage, they would be at high risk for

A\) hypotonic hydration.\
B) volume depletion.\
C) hypotonic dehydration.\
D) volume excess.

**29)** Renal failure would likely lead to

A\) volume depletion.\
B) hypotonicity.\
C) volume excess.\
D) hypertonic ascites.

**30)** Diabetes mellitus, profuse sweating, and hyposecretion of ADH
can each lead to

A\) volume excess.\
B) dehydration.\
C) hypotonic plasma.\
D) overhydration.

**31)** Runners who drink too much water before a marathon run a risk of
water intoxication, also known as

A\) diabetes insipidus.\
B) volume excess.\
C) hypotonic hydration.\
D) volume depletion.\
E) hypertonic ascites.

**32)** Edema is an example of

A\) dehydration.\
B) volume depletion.\
C) total volume excess.\
D) fluid sequestration.

**33)** Blockage of lymphatic vessels or surgical removal of lymphatic
vessels increases the likelihood of

A\) ascites, which Isan example of volume depletion.\
B) ascites, which Isan example of hypertonicity.\
C) edema, which is an example of fluid sequestration.\
D) edema, which is an example of volume depletion.\
E) pleural effusion, which is an example of hypertonic hydration.

**34)** Feelings of thirstiness are brought on by

A\) increases in salivary secretions and increases in blood osmolarity.\
B) increases in salivary secretions and decreases in blood osmolarity.\
C) decreases in salivary secretions and increases in blood osmolarity.\
D) decreases in salivary secretions and decreases in blood osmolarity.

**35)** Decreases in blood pressure turn \_\_\_\_\_ the thirst center of
the brain.

A\) on\
B) off

**36)** The thirst center of the brain is located in the

A\) hippocampus.\
B) hypothalamus.\
C) occipital lobe.\
D) pons.

**37)** Distention of the stomach causes thirst to

A\) increase.\
B) decrease.

**38)** Which of the following does *not* turn off the thirst center of
the brain?

A\) Decreased blood osmolarity\
B) Entry of fluid in the stomach\
C) Decreased salivary secretions\
D) Increased blood pressure

**39)** When compared with the effects of blood pressure and osmolarity
on fluid intake, the effects of saliva and stomach distention are

A\) more immediate and more accurate.\
B) more immediate bootless accurate.\
C) more long-term and more accurate.\
D) more long-term bootless accurate.

**40)** The hormone ANP

A\) increases urine output and increases blood volume.\
B) increases urine output and decreases blood volume.\
C) decreases urine output and decreases blood volume.\
D) decreases urine output and increases blood volume.

**41)** The molecule HCl is an example of a(n)

A\) electrolyte.\
B) nonelectrolyte.\
C) base.

**42)** To account for their effects on osmotic pressure, the
concentration of electrolytes is often expressed in

A\) moles.\
B) moieties.\
C) milliequivalents per liter.\
D) moles perlite.\
E) milliliters.

**43)** When NaCl is added to body fluids, it results in the addition of

A\) one solute particle per NaCl molecule and exerts an osmotic pressure
equivalent to that of nonelectrolyte.\
B) two solute particles per NaCl molecule and exerts twice the osmotic
pressure of the same number of nonelectrolyte molecules.\
C) three solute particles per NaCl molecule and exerts one-third the
osmotic pressure of the same number of nonelectrolyte molecules.\
D) one solute particle per NaCl molecule, but because it is uncharged it
does not result in osmotic pressure.

**44)** The most abundant cation within cells is

A\) sodium.\
B) potassium.\
C) calcium.\
D) chloride.\
E) magnesium.

**45)** The most abundant anion in the extracellular fluid is

A\) negatively charged proteins.\
B) phosphate.\
C) chloride.\
D) hydrogen.\
E) acetic acid.

**46)** Which ion is the principal solute of the ECF and is crucial for
neuromuscular and renal function?

A\) Magnesium\
B) Phosphate\
C) Calcium\
D) Sodium\
E) Potassium

**47)** How are sodium levels and blood pressure related?

A\) Increased plasma sodium levels decrease water retention, decrease
blood volume, and increase blood pressure.\
B) Decreased plasma sodium levels increase water retention, increase
blood volume, and decrease blood pressure.\
C) Increased plasma sodium levels increase water retention, blood
volume, and blood pressure.\
D) Decreased plasma sodium levels decrease water retention, increase
blood volume, and increase blood pressure.

**48)** Most potassium loss from the body occurs through

A\) sweat.\
B) urine.\
C) feces.\
D) respiration.

**49)** When the pH of the ECF decreases, K^+^ starts to move from the

A\) ECF to thief.\
B) ICF to thief.

**50)** Insulin causes blood plasma levels of potassium to
\_\_\_\_\_\_\_\_ by \_\_\_\_\_\_\_ activity of the Na ^+^/K ^+^ pumps.

A\) increase; stimulating\
B) increase; inhibiting\
C) decrease; stimulating\
D) decrease; inhibiting

**51)** Increases in secretion of the hormone ADH cause sodium
concentration in the blood plasma to

A\) increase.\
B) stay at the same level.\
C) decrease.

**52)** How does the hormone aldosterone influence potassium levels?

A\) It increases potassium secretion by the kidneys and increases
potassium blood concentration.\
B) It increases potassium secretion by the kidneys and decreases
potassium blood concentration.\
C) It increases potassium reabsorption by the kidneys and decreases
potassium blood concentration.\
D) It increases potassium reabsorption by the kidneys and increases
potassium blood concentration.

**53)** Low levels of calcium within cells are maintained by

A\) a high number of voltage-gated and leakage channels for calcium in
cell membranes.\
B) frequent exocytosis and endocytosis of calcium-containing vesicles.\
C) pumps that move calcium out of cells or into the sarcoplasmic
reticulum.\
D) osmosis of large amounts of water into cells that have any calcium
within them.

**54)** Renin is released from the juxtaglomerular apparatus in response
to

A\) high blood pressure or increased NaCl in the fluid within the distal
convoluted tubule.\
B) high blood pressure or decreased NaCl in the fluid within the distal
convoluted tubule.\
C) low blood pressure or increased NaCl in the fluid within the distal
convoluted tubule.\
D) low blood pressure or decreased NaCl in the fluid within the distal
convoluted tubule.

**55)** Angiotensin II triggers

A\) vasoconstriction and increased urine output from the kidneys.\
B) vasoconstriction and decreased urine output from the kidneys.\
C) vasodilation and increased urine output from the kidneys.\
D) vasodilation and decreased urine output from the kidneys.

**56)** Angiotensin II causes a(n)

A\) stimulation of the thirst center and increased release of ADH.\
B) stimulation of the thirst center and decreased release of ADH.\
C) inhibition of the thirst center and increased release of ADH.\
D) inhibition of the thirst center and decreased release of ADH.

**57)** Antidiuretic hormone (ADH) is synthesized in the
\_\_\_\_\_\_\_\_\_ and released from the \_\_\_\_\_\_\_\_\_.

A\) anterior pituitary; posterior pituitary\
B) anterior pituitary; hypothalamus\
C) hypothalamus; posterior pituitary\
D) hypothalamus; anterior pituitary

**58)** The stimuli that trigger the release of ADH are

A\) high blood pressure, high blood volume, and high blood osmolarity.\
B) high blood pressure, low blood volume, and low blood osmolarity.\
C) low blood pressure, low blood volume, and high blood osmolarity.\
D) low blood pressure, high blood volume, and high blood osmolarity.\
E) low blood pressure, low blood volume, and low blood osmolarity.

**59)** High levels of ADH cause

A\) vasoconstriction and therefore increases in blood pressure.\
B) vasoconstriction and therefore decreases in blood pressure.\
C) vasodilation and therefore increases in blood pressure.\
D) vasodilation and therefore decreases in blood pressure.

**60)** In the brain ADH \_\_\_\_\_\_\_ the thirst center, and in the
kidneys ADH causes an increase in water \_\_\_\_\_\_\_\_\_\_.

A\) stimulates; secretion\
B) stimulates; reabsorption\
C) inhibits; secretion\
D) inhibits; reabsorption

**61)** The adrenal gland releases aldosterone in response to

A\) ANP and increased blood plasma sodium levels.\
B) ANP and decreased blood plasma sodium levels.\
C) angiotensinII and increased blood plasma sodium levels.\
D) angiotensinII and decreased blood plasma sodium levels.

**62)** Aldosterone exerts effects on principal cells of the kidney by
causing

A\) increased levels of cAMP and increases in the total number of Na^+^
channels.\
B) decreased levels of cAMP and decreases in the number of open +
channels.\
C) increased numbers of Na +/K + pumps.\
D) decreased numbers of Na +/K + pumps.

**63)** Aldosterone causes kidney tubules to

A\) reabsorb more sodium, water, and potassium.\
B) reabsorb more sodium and water and secrete more potassium.\
C) reabsorb more sodium and secret more water and potassium.\
D) secrete more sodium, water, and potassium.\
E) secrete more sodium and reabsorb more potassium.

**64)** The stimulus that directly triggers release of ANP is

A\) decreased pressure detected by baroreceptors in the aorta and carotid
arteries.\
B) increased stretch of the heart atria.\
C) increased saltiness in the cerebrospinal fluid bathing the
hypothalamus of the brain.\
D) increased saltiness of tubular fluid in the proximal convoluted
tubule.

**65)** The hormone ANP causes systemic blood vessels to

A\) constrict, which raises blood pressure.\
B) constrict, which lowers blood pressure.\
C) dilate, which raises blood pressure.\
D) dilate, which lowers blood pressure.

**66)** Atrial natriuretic peptide causes \_\_\_\_\_\_\_\_\_\_ of
afferent arterioles and \_\_\_\_\_\_\_\_\_ of mesangial cells.

A\) constriction; contraction\
B) constriction; relaxation\
C) dilation; contraction\
D) dilation; relaxation

**67)** Fixed acids are generally regulated by physiological buffering
provided by the

A\) respiratory system.\
B) kidneys.\
C) lymphatic system.

**68)** Most of the fixed acid in our body comes from

A\) the oxygen we breathe.\
B) acid absorbed from the GI tract.\
C) loss of bicarbonate in feces.\
D) lactic acid from muscle.

**69)** A diet rich in animal protein contributes to increased levels of

A\) volatile acid.\
B) bicarbonate ions.\
C) fixed acid.

**70)** When blood starts to become too acidic, the kidneys respond by

A\) synthesizing and secreting bicarbonate ions while reabsorbing H +.\
B) synthesizing and reabsorbing H + while filtering bicarbonate ions.\
C) synthesizing and reabsorbing bicarbonate ions while secreting H +.\
D) decreasing filtration rate and increasing reabsorption of both
bicarbonate inland +.\
E) increasing filtration rate and increasing reabsorption of H +.

**71)** When blood starts to become more alkaline than normal, the renal
tubules begin to

A\) secrete bicarbonate and H + through type B cells.\
B) secrete bicarbonate while reabsorbing H + in exchange through type
Bells.\
C) secrete H + while reabsorbing bicarbonate in exchange through type A
cells.\
D) absorb bicarbonate and H + through type A cells.

**72)** The process by which the kidneys eliminate excess acid or base
is relatively

A\) quick (takes minutes) and powerful.\
B) quick (takes minutes) but limited (is not very powerful).\
C) slow (takes hours to days) but powerful.\
D) slow (takes hours to days) and limited (is not very powerful).

**73)** If someone begins to hyperventilate due to anxiety, the CO ~2~
concentration in their blood decreases; this causes\_\_\_\_\_\_\_\_\_\_
in blood pH.

A\) an increase\
B) a decrease\
C) no change

**74)** If an individual\'s respiratory rate decreases, then bloodCO~2~
levels

A\) rise, blood H+ levels rise, and blood pH rises.\
B) rise, blood H+ levels rise, and blood pH falls.\
C) rise, blood H+ levels fall, and blood pH falls.\
D) fall, blood H+ levels rise, and blood pH rises.\
E) fall, blood H+ levels fall, and blood pH falls.

**75)** The amine groups contained within amino acids of proteins can
act as weak

A\) acids.\
B) bases.

**76)** If a strong acid were to add H^+^ to the intracellular fluid,
the effect would most likely be buffered, because

A\) HPO ~4~ 2^-^ would act as a weak acid and donate an H + to become PO
~4~ -.\
B) HPO ~4~ 2^-^ would act as a weak base and accept an H + to become H
2PO ~4~ -.\
C) H 2PO ~4~ - would act as a weak acid and accept an H + to become H
3PO ~4~ -.\
D) PO ~4~would act as a strong base and accept an H + to become HPO ~4~.

**77)** The bicarbonate system is composed of H ~2~CO ~3~ and HCO ^-^
~3~. Which statement accurately describes these molecules?

A\) H 2CO ~3~ and HCO - 3 are both weak acids.\
B) H 2CO ~3~ is a weak acid, and HCO - 3 is a weak base.\
C) H 2CO ~3~ is a weak base, and HCO - 3 is a weak acid.\
D) H 2CO ~3~ and HCO - 3 are both strong bases.\
E) H 2CO ~3~ is a strong base, and HCO - ~3~ is a weak acid.

**78)** If a physiologic condition resulted in blood pH reaching 7.2,
but then physiological buffering systems brought the pH to 7.4, that
increase in pH would be called

A\) acidosis.\
B) alkalosis.\
C) compensation.\
D) imbalance.\
E) partial noncompensation.

**79)** The most common type of acid-base imbalance is

A\) metabolic acidosis.\
B) metabolic alkalosis.\
C) respiratory acidosis.\
D) respiratory alkalosis.

**80)** Respiratory acidosis occurs when the partial pressure of

A\) oxygen rises.\
B) oxygen falls.\
C) carbon dioxide rises.\
D) carbon dioxide falls.

**81)** Emphysema causes a decrease in the surface area of the
respiratory membrane and thereby leads to respiratory

A\) acidosis.\
B) alkalosis.

**82)** Compared to adults, infants are \_\_\_\_\_\_\_ susceptible to
respiratory acidosis due to lower \_\_\_\_\_\_\_\_\_.

A\) more, carbon dioxide levels.\
B) more, residual volume.\
C) less, carbon dioxide levels.\
D) less, residual volume.

**83)** Climbing at high altitude where oxygen levels are insufficient
can lead to

A\) respiratory acidosis.\
B) respiratory alkalosis.\
C) metabolic acidosis.\
D) metabolic alkalosis.

**84)** Medicines that overstimulate respiratory centers in the brain
lead to

A\) respiratory acidosis.\
B) respiratory alkalosis.\
C) metabolic acidosis.\
D) metabolic alkalosis.

**85)** When bicarbonate levels fall due to an accumulation of fixed
acids in the body, the result is

A\) metabolic acidosis.\
B) metabolic alkalosis.\
C) insufficient respiration.\
D) respiratory acidosis.\
E) respiratory alkalosis.

**86)** Severe diarrhea results in the increased elimination of

A\) hydrogen ions and therefore causes acidosis.\
B) hydrogen ions and therefore causes alkalosis.\
C) bicarbonate ions and therefore causes acidosis.\
D) bicarbonate ions and therefore causes alkalosis.

**87)** The high metabolic rate of infants puts them at increased risk
of metabolic

A\) acidosis.\
B) alkalosis.

**88)** Elevated HCO~3~^-^ levels brought about by vomiting is
classified as

A\) respiratory acidosis.\
B) respiratory alkalosis.\
C) metabolic acidosis.\
D) metabolic alkalosis.

**89)** An individual who consumes many antacids for stomach upset and
many diuretics for high blood pressure will be at risk for metabolic

A\) acidosis.\
B) alkalosis.

**90)** Renal compensation for acidosis results in

A\) urine with a high and an elevation of blood bicarbonate levels.\
B) urine with a high and a decline of blood bicarbonate levels.\
C) urine with a low hand an elevation of blood bicarbonate levels.\
D) urine with a low hand a decline of blood bicarbonate levels.

**91)** Renal compensation to a decrease in blood H^+^ levels are to
increase the activity of type

A\) A cell to secrete more bicarbonate.\
B) A cells to secrete less bicarbonate.\
C) B cells to secrete more bicarbonate.\
D) B cells to secrete less bicarbonate.

**92)** The development of hypoxia can limit the effectiveness of
respiratory compensation for metabolic

A\) acidosis.\
B) alkalosis.

**93)** Fixed acid is regulated by the \_\_\_\_\_ through the absorption
and elimination of \_\_\_\_\_.

A\) kidney; bicarbonate and H +\
B) respiratory system; bicarbonate and H +\
C) kidney; carbonic acid\
D) respiratory system; carbonic acid

**94)** When pH decreases, the kidney responds by

A\) secreting H +.\
B) reabsorbing carbon dioxide.\
C) secreting bicarbonate.\
D) secreting carbonic acid.

**95)** Infants have a relatively low residual volume, putting them at
risk for \_\_\_\_\_ to accumulate in the blood, resulting in \_\_\_\_\_.

A\) carbonic acid; respiratory acidosis\
B) carbonic acid; metabolic acidosis\
C) bicarbonate; respiratory acidosis\
D) bicarbonate; metabolic acidosis

**96)** In elderly individuals, 75% of body weight is made up of fluid.

⊚ true\
⊚ false

**97)** When comparing two individuals of the same body weight, the one
with more muscle and less fat will have a higher percentage of fluid in
their body.

⊚ true\
⊚ false

**98)** Most of the fluid in our body is contained within our cells.

⊚ true\
⊚ false

**99)** As an individual becomes dehydrated, the net movement of fluid
in their body is from cells toward plasma.

⊚ true\
⊚ false

**100)** In order for a state of fluid balance to be achieved,
obligatory water loss must equal facultative water loss.

⊚ true\
⊚ false

**101)** Insensible water loss is an example of facultative water loss.

⊚ true\
⊚ false

**102)** During dehydration, blood plasma becomes hypotonic relative to
the body\'s cells.

⊚ true\
⊚ false

**103)** Extreme hypotonic hydration can cause brain cells to swell.

⊚ true\
⊚ false

**104)** Fluid intake causes blood volume to increase.

⊚ true\
⊚ false

**105)** Changes in blood osmolarity that turn off the thirst center
also increase the release of ADH from the pituitary gland.

⊚ true\
⊚ false

**106)** Angiotensin II, aldosterone, and ADH each help decrease urine
output.

⊚ true\
⊚ false

**107)** A substance that dissociates in water to form cations and
anions is called a nonelectrolyte.

⊚ true\
⊚ false

**108)** Most nonelectrolytes are covalently bonded organic molecules.

⊚ true\
⊚ false

**109)** Activation of the parasympathetic nervous system triggers renin
release from the juxtaglomerular apparatus of the kidneys.

⊚ true\
⊚ false

**110)** Angiotensin II stimulates the adrenal cortex to release
aldosterone.

⊚ true\
⊚ false

**111)** Decreased stretch of baroreceptors within the aorta and carotid
arteries results in stimulation of the hypothalamus; this stimulation
increases ADH secretion.

⊚ true\
⊚ false

**112)** The release of aldosterone is triggered by a decrease in blood
plasma potassium levels.

⊚ true\
⊚ false

**113)** ANP causes an increase in the loss of sodium and water through
urine.

⊚ true\
⊚ false

**114)** Atrial natriuretic peptide (ANP) inhibits the release of
aldosterone, ADH, and renin.

⊚ true\
⊚ false

**115)** Fixed acid is also called volatile acid.

⊚ true\
⊚ false

**116)** Lactic acid, a product of metabolism, is considered a volatile
acid.

⊚ true\
⊚ false

**117)** Severe diarrhea leads to a decrease in the pH of the blood.

⊚ true\
⊚ false

**118)** Collectively, the renal and respiratory systems comprise the
chemical buffering system of the body.

⊚ true\
⊚ false

**119)** Both intracellular proteins (such as hemoglobin) and
extracellular proteins (such as plasma proteins) can act as chemical
buffers.

⊚ true\
⊚ false

**120)** To buffer the body\'s extracellular fluid compartment,
dihydrogen phosphate acts as a strong base and prevents acidosis of the
plasma.

⊚ true\
⊚ false

**121)** The bicarbonate buffering system is the most important
buffering system in the extracellular fluid.

⊚ true\
⊚ false

**122)** Hyperventilation leads to respiratory alkalosis.

⊚ true\
⊚ false

**123)** Excessive intake of alcohol leads to respiratory alkalosis.

⊚ true\
⊚ false

**124)** Impaired renal function within the elderly elevates their risk
for acid-base imbalance.

⊚ true\
⊚ false

**125)** To compensate for metabolic acidosis, the respiratory system
increases breathing rate, which lowers the partial pressure of carbon
dioxide below normal levels.

⊚ true\
⊚ false

**126)** Volatile acid is eliminated by the respiratory system.

⊚ true\
⊚ false

**127)** Respiratory acid-base disturbances involve fluctuations in
carbonic acid whereas metabolic acid-base disturbances involve
fluctuations in bicarbonate levels.

⊚ true\
⊚ false