Multiple Choice
Place a card over the open top of a glass filled to the brim with water, and then invert it, as is shown below. Why does the card stay in place? How about when the glass is held sideways? 
A) The weight of the air pushing against the outer surface of the card is much greater than the weight of the water pushing against the inner surface of the card, whether inverted or held sideways.
B) The adhesive force between the water and the card is greater than the force exerted by the weight of the water from the inside of the glass both in the inverted position and while held sideways.
C) Inverting the glass with the card in place creates a sufficiently strong vacuum so that the water is not permitted to escape. That vacuum is the same when the glass is held sideways.
D) The surface tension that was created by putting the card in place is converted to a force of adhesion which exceeds the force exerted by the weight of the water in the glass, whether inverted or held sideways.
Correct Answer:
Verified
Correct Answer:
Verified
Q7: Red colored Kool-Aid crystals are added to
Q10: A piece of aluminum weighing 10.0 grams
Q12: The diagram on the left in box
Q15: What state (or states) of matter does
Q39: The scanning probe microscope creates images of
Q52: A TV screen looked at from a
Q55: Why do scuba divers exhale air when
Q77: Which would you rather have: a decigram
Q83: According to John Dalton, atoms of a
Q98: Based on the Law of Mass Conservation,