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Is the following true or false an object that is dropped will hit the is ground before an object that is thrown horizontally from the same height?
True. Both objects, when released from the same height, will experience the same gravitational acceleration regardless of their horizontal motion. Therefore, the object that is dropped will hit the ground at the same time as the object thrown horizontally, assuming no air resistance. However, the dropped object will fall straight down, while the thrown object will travel horizontally as it falls.
What else can I help you with?
Will a bullet travel the same distance straight up that it would horizontally?
No. The horizontal distance depends on how close the the ground the gun is. From the firing position, a bullet dropped to the ground will strike the ground in the same time as a bullet shot horizontally forward.
If you drop a rock and simultaneously throw a rock horizontally from the same height which one will hit the ground first?
The general theories of Physics say that both rocks will hit the ground at the same time.
Would a bowling ball and a penny hit the ground at the same time if dropped from an equal height?
Yes
What is the title of the movie about a guy who eats an egg that was dropped on the ground and gets sick from it and little people in his body are fighting the illness?
Osmosis Jones
What Are The Difference and Similarities Between Stolons and Rhizomes?
Stolons and rhizomes are both types of vegetative plant structures that enable asexual reproduction and the spread of plants. Stolons, also known as runners, grow horizontally above the ground and produce new plants at intervals, while rhizomes are underground stems that grow horizontally and can produce shoots and roots from their nodes. Both structures facilitate the expansion of plant colonies and can help plants adapt to their environments. However, their primary difference lies in their growth orientation: stolons are above-ground, while rhizomes are below-ground.
2 balls dropped horizontally and vertically.Which ball strikes ground first why?
Please describe how you drop something 'horizontally'
True or false an object that is dropped will hit the ground before an object that is thrown horizontally from the same height?
False, provided the drop occurs no sooner than the throw, and the ground is flat .
Will a bullet travel the same distance straight up that it would horizontally?
No. The horizontal distance depends on how close the the ground the gun is. From the firing position, a bullet dropped to the ground will strike the ground in the same time as a bullet shot horizontally forward.
Is it true an object that will hit the ground before an object that is thrown horizontally?
No, objects fall at the same rate regardless of their horizontal velocity. Both objects would hit the ground at the same time if dropped from the same height.
What form of energy did the ball have before it was dropped?
The ball had potential energy before it was dropped. This potential energy was due to its position above the ground.
A rock is dropped at the same instant that a ball in the same elevation is thrown horizontally which will have the greater speed when it reaches ground level?
The rock will have a greater speed when it reaches the ground level compared to the ball thrown horizontally because the rock will be accelerated by gravity as it falls vertically, while the ball thrown horizontally will only have its initial horizontal velocity.
Is it true an object that is dropped will hit the ground before an object thrown horizontally from the same height?
No, both objects will hit the ground at the same time if there is no air resistance acting on them. This is known as the principle of equivalence, which states that in the absence of air resistance, all objects will fall at the same rate regardless of their mass or how they are initially given velocity.
Why does a bullet shot horizontally hit the ground at the same time as one just dropped?
Because the horizontal and vertical motion of an object are separate. This means that a thrown object will accelerate with the same amount of acceleration as a dropped object (about 9.8 m/s2 acceleration due to gravity) causing them to hit the ground at the same time
What does gravity do to the path of an object that is thrown horiziontally?
It doesn't matter whether the object is thrown down, up, horizontally, or diagonally. Once it leaves the thrower's hand, it is accelerated downward by an amount equal to acceleration of gravity on the planet where this is all happening. On Earth, if you throw an object horizontally, it accelerates downward at the rate of 9.8 meters per second2 ... just as it would if you simply dropped it. Whether it's dropped or thrown horizontally, it hits the ground at the same time.
A bullet is fired horizontally out of a gun at the same time another is dropped from the end of the barrelthe one to hit the ground first is?
The bullet fired horizontally will hit the ground first, given that it has an initial horizontal velocity that keeps it moving forward from the moment it leaves the gun. On the other hand, the bullet dropped from the end of the barrel only has the force of gravity acting on it, causing it to fall vertically, which is slower than the horizontal motion of the fired bullet.
Why an arrow shot horizontally and an arrow dropped straight down from the same height will hit the ground at the same time?
Both arrows will hit the ground at the same time because the force of gravity acts equally on both arrows, regardless of their initial horizontal or vertical motion. The vertical component of the horizontally shot arrow's motion does not affect the time it takes to fall to the ground.
Will the object that is dropped hit the ground before an object that is that it is thrown horizontally from the same height?
No, both objects will hit the ground at the same time, assuming air resistance is negligible. This is because the time it takes for an object to fall is only influenced by its initial vertical velocity and the acceleration due to gravity, not its horizontal motion.
