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Depends which one is thrown first ... you didn't mention whether they're thrown at the same or different times. If they're dropped, or thrown in exactly the same way, at exactly the same time, from exactly the same height, then they'll hit the ground at exactly the same time.
False, provided the drop occurs no sooner than the throw, and the ground is flat .
No. They both hit the ground at the same time, because the VERTICAL component of velocity in both cases is the same.
No. They both hit the ground at the same time. This is because the VERTICAL component of velocity in both cases is the same.
No, this is an example of projectile motion. You should throw it at 45 degrees from the horizontal ground for it to have the maximum horizontal distance. This is because a sufficient height must be achieved, so that the ball can stay in the air longer and thus travel a longer distance while in flight.
An object thrown vertically up wards from the ground returned back to the ground in 6s after it was thown up if it reached a height of 12m calculate?
They might seem like they have the same flight patterns, but they don't. A 12-6 curveball thrown by an over-hander will go from 12 to 6, but if the same is thrown by a 3/4 or side-armer, the ball will react a little more like a slider.
Depends which one is thrown first ... you didn't mention whether they're thrown at the same or different times. If they're dropped, or thrown in exactly the same way, at exactly the same time, from exactly the same height, then they'll hit the ground at exactly the same time.
False, provided the drop occurs no sooner than the throw, and the ground is flat .
The height, in feet, above the ground at time t, H(t) = 40 + 32*t - 16*t2
No. They both hit the ground at the same time, because the VERTICAL component of velocity in both cases is the same.
No. They both hit the ground at the same time. This is because the VERTICAL component of velocity in both cases is the same.
No, this is an example of projectile motion. You should throw it at 45 degrees from the horizontal ground for it to have the maximum horizontal distance. This is because a sufficient height must be achieved, so that the ball can stay in the air longer and thus travel a longer distance while in flight.
They are called lava bombs they are chunks of semi molten rock thrown up from the volcano and then falling from a great height. When they hit the ground they have the shape of a bomb.
At any time 't' seconds after the ball is released,until it hits the ground,h = 5 + 48 t - 16.1 t2
There is no such thing as "interconversion of body" in this case. There are energy conversions; perhaps that's what you mean?
1000000 m