In vacuum, all masses big and small fall with the same acceleration,
and reach the same speed in the same amount of time.
ANSWER
Storms are caused by the collision of air masses that have different temperatures and humidities.
It was Henry Ford, but it was "sell to the masses and eat with the classes".
Different areas have different definitions for winter, spring, summer and fall. I go by the definition that the seasons start on the solstices and the equinoxes. In England, as well as the rest of the northern hemisphere, September is the month in which summer ends and fall begins, and October and November are during fall.
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All objects irrespective of their masses in a vacuum where there is no air resistance will fall at an acceleration of 9.81 m/s²
There will be a gravitational force of attraction between them, but this would be the same in a vacuum as it would be in any other place.
Without the interference of air or any other force, they should fall at the same speed. All objects accelerate at the same rate regarding their masses. To conclude, If this was made in a vacuum they should fall at the same speed but in different conditions it may have different results due to air resistance.
yes, they fall at different speeds because of friction due to air molecules. In a vacuum they would fall at the same speed.
Yes. And objects with different sizes, masses, and weights also fall the same.
In vacuum, yes. Otherwise the object with a lower density will fall more slowly.
In the absence of air resistance, with motion produced only by the force of gravity,all masses fall with the same acceleration.After any time interval, all masses have the same speed, and all masses hit the groundat the same time.A feather, a helium balloon, a bowling ball, you name it. In a vacuum, they all fall 'like rocks',and hit bottom at the same time.
Galileo
they fall at the same rate regardless of their mass Maryann Saba
In a vacuum, they will fall together. Air resistance might have a minor affect on the results.
No. In a vacuum, the weight of an object will be the product their mass, times the gravity. In other words, objects with different masses will have different weights.
In a vacuum they would both fall at the same speed.