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In a vacuum where there is no air resistance, both the Bowling ball and the napkin would fall with the same acceleration due to gravity. However, in the presence of air resistance, the bowling ball, being more aerodynamic, would fall faster than the napkin.
Airplane, and Empire state building.
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Where would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate in a vacuum because they are subject to the same acceleration due to gravity. However, the bowling ball would be affected more by air resistance than the napkin due to its greater mass and surface area.
Where would a bowling ball and a napkin fall with same acceleration?
In a vacuum chamber. C. On the moon.
Were would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate of acceleration due to gravity, assuming no external forces are acting on them. This is because all objects experience the same acceleration due to gravity, regardless of their size, mass, or shape.
Where what a bowling ball and a napkin fall with the same acceleration?
In a vacuum, both a bowling ball and a napkin would fall with the same acceleration due to gravity, which is approximately 9.81 m/s^2. This is because in the absence of air resistance, all objects experience the same acceleration regardless of their mass.
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
Where would a bowling ball and a napkin with different accelerations?
from an airplane and from the top of the Empire State Building
Where would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate in a vacuum because they are subject to the same acceleration due to gravity. However, the bowling ball would be affected more by air resistance than the napkin due to its greater mass and surface area.
Where would a bowling bowl and a napkin fall with the same acceleration?
In a vacuum chamber. C. On the moon.
Where would a bowling ball and a napkin fall with same acceleration?
In a vacuum chamber. C. On the moon.
Were would a bowling ball and a napkin fall with the same acceleration?
Both the bowling ball and the napkin would fall at the same rate of acceleration due to gravity, assuming no external forces are acting on them. This is because all objects experience the same acceleration due to gravity, regardless of their size, mass, or shape.
Where what a bowling ball and a napkin fall with the same acceleration?
In a vacuum, both a bowling ball and a napkin would fall with the same acceleration due to gravity, which is approximately 9.81 m/s^2. This is because in the absence of air resistance, all objects experience the same acceleration regardless of their mass.
Could a bowling ball destroy a tank?
No but if it was a wrecking ball that would be a different story
What does Le Traigo Una Servilleta mean?
It can mean a few different things: - I'm bringing you a napkin (using the "usted" form, which is a formal "you"). - I bring you a napkin (again using the "usted" form). - I'm bringing him a napkin. - I'm bringing her a napkin. In the last two, the indirect object (who would be receiving the napkin) isn't stated, although it's perfectly correct to say the sentence in this way. It's more likely that the person receiving the napkin is you based on the context clues (likely a situation where someone is serving someone else food).
If forces are unbalanced is there acceleration?
yes, since the forces are acting on just one body, the mass (m) in the equation F=ma is not changing, which would mean that the two accelerations (a) would have to be different. If the two accelerations are different then there is total acceleration in one direction (the resultant acceleration).
Where would you play a game of bowls?
Bowling Alley Bowling Alley
If a bowling ball is moving torwards the bowling pin which direction is the net force acting?
The net force would be in the direction of the bowling ball's motion, which in this case would be towards the bowling pin.
What would happen on a humid day if you took an empty metal cup out of a freezer and put it on a napkin?
The napkin will get wet and will form water vapor.
