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A dart is fired horizontally from a dart gun and another dart is dropped simultaneously from the same height If air resistance can be neglected which dart hits the ground first?
Both darts will hit the ground at the same time, assuming air resistance is neglected. This is because the vertical component of motion (due to gravity) is the same for both darts, regardless of their horizontal velocities.
If air resistance can be neglected how does the acceleration of a ball that has been tossed straight upward compare with its acceleration if simply dropped?
If air resistance can be neglected, the acceleration of a ball tossed straight upward is the same as when it is dropped - both experience a gravitational acceleration of 9.81 m/s^2 downward. The initial velocity of the tossed ball would cause it to momentarily counteract the acceleration and then eventually slow down and reverse direction due to gravity.
What will hit the ground first a leaf or a feather?
Ignoring air resistance, both a leaf and a feather will hit the ground at the same time when dropped simultaneously, regardless of their weight. This is due to the gravitational acceleration acting equally on both objects.
Which ball will have a greater air resistance when the ball are dropped?
A larger ball will experience greater air resistance when dropped because it has a greater surface area interacting with the air. Air resistance is proportional to the surface area of an object, so the larger ball will slow down faster than a smaller ball when dropped.
What would happen if two objects fell at the same time with no air resistance?
If two objects on the same planet are dropped from the same place at the same time and there is no air resistance, they fall with the same acceleration, and they hit the ground at the same time with the same speed. Their size, mass, weight, temperature, color, political affiliation, race, creed, or sexual orientation make no difference.
A marble a textbook and a flaming stick are simultaneously dropped from a height of 10 feet Supposing air resistance upon the falling objects is small enough that it can be neglected which will hit?
Without air resistance? All three will hit the ground at the same time.
A dart is fired horizontally from a dart gun and another dart is dropped simultaneously from the same height If air resistance can be neglected which dart hits the ground first?
Both darts will hit the ground at the same time, assuming air resistance is neglected. This is because the vertical component of motion (due to gravity) is the same for both darts, regardless of their horizontal velocities.
If air resistance can be neglected how does the acceleration of a ball that has been tossed straight upward compare with its acceleration if simply dropped?
If air resistance can be neglected, the acceleration of a ball tossed straight upward is the same as when it is dropped - both experience a gravitational acceleration of 9.81 m/s^2 downward. The initial velocity of the tossed ball would cause it to momentarily counteract the acceleration and then eventually slow down and reverse direction due to gravity.
What should happen if you dropped a hammer and a feather on the moon?
If you dropped a hammer and a feather on the moon, both would fall at the same rate due to the moon's lack of atmosphere, which eliminates air resistance. This means they would hit the lunar surface simultaneously, demonstrating Galileo's principle of falling bodies. This phenomenon contrasts sharply with what happens on Earth, where the feather would fall much more slowly due to air resistance.
What will hit the ground first a leaf or a feather?
Ignoring air resistance, both a leaf and a feather will hit the ground at the same time when dropped simultaneously, regardless of their weight. This is due to the gravitational acceleration acting equally on both objects.
Which ball will have a greater air resistance when the ball are dropped?
A larger ball will experience greater air resistance when dropped because it has a greater surface area interacting with the air. Air resistance is proportional to the surface area of an object, so the larger ball will slow down faster than a smaller ball when dropped.
What would happen if two objects fell at the same time with no air resistance?
If two objects on the same planet are dropped from the same place at the same time and there is no air resistance, they fall with the same acceleration, and they hit the ground at the same time with the same speed. Their size, mass, weight, temperature, color, political affiliation, race, creed, or sexual orientation make no difference.
If two object of different density are dropped simultaneously which one will hit the ground first?
as done in Galileo's experiment when he dropped a large rock and a feather from a tall tower both hit the ground at the same moment when dropped from the same height.
In a series circuit where is the most voltage dropped?
At the point of highest resistance.
Why does 3 spherical object with different mass will hit the ground at the same time when dropped simultaneously from the same height?
All three objects will hit the ground at the same time because in the absence of air resistance, all objects experience the same acceleration due to gravity, regardless of their mass. This acceleration causes all three objects to fall at the same rate, leading them to hit the ground simultaneously.
A metal box is attached to a small parachutes dropped by a helicopterexplain in terms of force why its velocity increases immediately after being dropped?
When the box is dropped from the helicopter, it experiences a downward force due to gravity. At the same time, air resistance acting in the opposite direction slows down the box. When the parachute is released, it creates air resistance that counters the force of gravity, allowing the box to accelerate and increase its velocity.
A cricket ball and football are dropped simultaneously from the top of Qutub Minar then what happens?
They would hit the ground at the same time, Galileo dropped to balls with different masses and they both hit the ground at the exact same time.
