PADI, Open Water Diver, Final Exam Review Well Solved
Salt water is heavier than fresh water because it has dissolved minerals in it. This means it causes more
upward force (buoyancy) on an object. An object that is neutrally buoyant in fresh water would float in
salt water because there is greater upward force.
See Being a Diver I - Buoyancy and Controlling Buoyancy. - CORRECT ANS-1) If an object is neutrally
buoyant (does not sink or float) in fresh water, the same object placed into salt water would
A sink.
B either sink or float.
C do nothing.
D float.
B The balloon will get smaller and the air inside the balloon will be more dense (molecules move closer
together).
As water pressure increases, the volume of an air space will decrease. This causes the density of the air
inside to increase and air molecules are pushed closer together. The balloon would get smaller and the
air density inside would be greater.
See Being a Diver I - Water Pressure and Air Volume Effects. - CORRECT ANS-2) I blow up a balloon, tie it
off, and take it to the bottom of the swimming pool. What will happen to the balloon and the air inside
it?
A The balloon will get bigger and the air inside the balloon will be less dense (molecules move further
apart).
B The balloon will get smaller and the air inside the balloon will be more dense (molecules move closer
together).
C The balloon will get bigger and the air inside the balloon will be more dense.
D The balloon will get smaller and the air inside the balloon will be less dense.
,A become half the size it was at the surface.
At 10 meters, the pressure is 2 bar. An air volume taken to this depth from the surface would decrease
and become half the size.
See Being a Diver I - Water Pressure and Air Volume Effects. - CORRECT ANS-3) I turn a glass upside
down, trap the air in it by putting it in water, and then I take the glass down to 10 meters. The air space
would
A become half the size it was at the surface.
B not change in size.
C become 1/3 the size it was at the surface.
D become 2/3 the size it was at the surface.
C A cold, allergy or another medical problem.
A cold, or any congestion, can block air passages in your ears and sinuses, making equalization difficult
or impossible.
See Being a Diver I - The Effects of Increasing Pressure on Body Air Spaces. - CORRECT ANS-4) If I am not
able to equalize (clear) my body air spaces, it may be because I have
A seasickness.
B heart disease and high blood pressure.
C a cold, allergy or another medical problem.
D anxiety.
C I am feeling a squeeze and need to equalize.
Pain in your ears or sinuses means that they aren't equalized. Stop your descent and ascend slightly to
relieve pressure on your ears. Then attempt to equalize again. If you can't equalize, end the dive.
, See Being a Diver I - The Effects of Increasing Pressure on Body Air Spaces. - CORRECT ANS-5) If my ears
or sinuses hurt while I am descending (going down), it usually means
A my air spaces are equalized.
B my mask strap is too tight.
C I am feeling a squeeze and need to equalize.
D my mask is too small.
B In the triangle area formed by my chin and the lower corners of my rib cage.
Your alternate air source attaches with a quick release in the triangle area formed by your chin and the
lower corners of your rib cage. Avoid letting your alternate air source dangle unsecured from your kit.
See Equipment I - Regulators. - CORRECT ANS-6) The best place for me to position an alternate air
source is
A loose by my side so I can find it fast.
B in the triangle area formed by my chin and the lower corners of my rib cage.
C to the base of my cylinder.
D to the back of my BCD between my shoulder blades and waist.
D Holding my breath while scuba diving.
Blocking off your lungs by holding your breath and ascending could cause them to overexpand and
rupture, which is a serious injury that could result in paralysis and death. Breathing continuously while
scuba diving keeps air passages open allowing expanding air to escape.
See Being a Diver I - The Effects of Decreasing Pressure on Body Air Spaces. - CORRECT ANS-7) Lung
overexpansion injuries can be caused by
Salt water is heavier than fresh water because it has dissolved minerals in it. This means it causes more
upward force (buoyancy) on an object. An object that is neutrally buoyant in fresh water would float in
salt water because there is greater upward force.
See Being a Diver I - Buoyancy and Controlling Buoyancy. - CORRECT ANS-1) If an object is neutrally
buoyant (does not sink or float) in fresh water, the same object placed into salt water would
A sink.
B either sink or float.
C do nothing.
D float.
B The balloon will get smaller and the air inside the balloon will be more dense (molecules move closer
together).
As water pressure increases, the volume of an air space will decrease. This causes the density of the air
inside to increase and air molecules are pushed closer together. The balloon would get smaller and the
air density inside would be greater.
See Being a Diver I - Water Pressure and Air Volume Effects. - CORRECT ANS-2) I blow up a balloon, tie it
off, and take it to the bottom of the swimming pool. What will happen to the balloon and the air inside
it?
A The balloon will get bigger and the air inside the balloon will be less dense (molecules move further
apart).
B The balloon will get smaller and the air inside the balloon will be more dense (molecules move closer
together).
C The balloon will get bigger and the air inside the balloon will be more dense.
D The balloon will get smaller and the air inside the balloon will be less dense.
,A become half the size it was at the surface.
At 10 meters, the pressure is 2 bar. An air volume taken to this depth from the surface would decrease
and become half the size.
See Being a Diver I - Water Pressure and Air Volume Effects. - CORRECT ANS-3) I turn a glass upside
down, trap the air in it by putting it in water, and then I take the glass down to 10 meters. The air space
would
A become half the size it was at the surface.
B not change in size.
C become 1/3 the size it was at the surface.
D become 2/3 the size it was at the surface.
C A cold, allergy or another medical problem.
A cold, or any congestion, can block air passages in your ears and sinuses, making equalization difficult
or impossible.
See Being a Diver I - The Effects of Increasing Pressure on Body Air Spaces. - CORRECT ANS-4) If I am not
able to equalize (clear) my body air spaces, it may be because I have
A seasickness.
B heart disease and high blood pressure.
C a cold, allergy or another medical problem.
D anxiety.
C I am feeling a squeeze and need to equalize.
Pain in your ears or sinuses means that they aren't equalized. Stop your descent and ascend slightly to
relieve pressure on your ears. Then attempt to equalize again. If you can't equalize, end the dive.
, See Being a Diver I - The Effects of Increasing Pressure on Body Air Spaces. - CORRECT ANS-5) If my ears
or sinuses hurt while I am descending (going down), it usually means
A my air spaces are equalized.
B my mask strap is too tight.
C I am feeling a squeeze and need to equalize.
D my mask is too small.
B In the triangle area formed by my chin and the lower corners of my rib cage.
Your alternate air source attaches with a quick release in the triangle area formed by your chin and the
lower corners of your rib cage. Avoid letting your alternate air source dangle unsecured from your kit.
See Equipment I - Regulators. - CORRECT ANS-6) The best place for me to position an alternate air
source is
A loose by my side so I can find it fast.
B in the triangle area formed by my chin and the lower corners of my rib cage.
C to the base of my cylinder.
D to the back of my BCD between my shoulder blades and waist.
D Holding my breath while scuba diving.
Blocking off your lungs by holding your breath and ascending could cause them to overexpand and
rupture, which is a serious injury that could result in paralysis and death. Breathing continuously while
scuba diving keeps air passages open allowing expanding air to escape.
See Being a Diver I - The Effects of Decreasing Pressure on Body Air Spaces. - CORRECT ANS-7) Lung
overexpansion injuries can be caused by
