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∙ 16y agoGalileo was the first to discover that, when released at the same time, objects with different weights will reach the ground at the same time. This is true because the Earth's gravitation pull is constant. Generally speaking, the velocity of an object will initially be low (zero) and will, given time and distance, increase to reach its terminal velocity. Mass, on the other hand, will remain constant.
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∙ 16y agoNo. A blunt object will be blunt regardless of the speed it travels.
The length of the shadow depends not only on the height of the object, but also on how high the Sun is in the sky.
Not enough information. The length of the shadow depends on the height of the object AND on the how high the Sun is in the sky.
If the triangle is made up of three bent arrows, then it is a recycling symbol which means that the object is made of HDPE: high density polyethylene.If the triangle is made up of three bent arrows, then it is a recycling symbol which means that the object is made of HDPE: high density polyethylene.If the triangle is made up of three bent arrows, then it is a recycling symbol which means that the object is made of HDPE: high density polyethylene.If the triangle is made up of three bent arrows, then it is a recycling symbol which means that the object is made of HDPE: high density polyethylene.
low angle= to make object appear larger than it really is and to make audience vulnerable....... high angle= to make object appear smaller than what it really is and to create the effect that they are insignificant........
An object with a high density, such as a lead ball, can have a small capacity (volume) but a large mass. This is because density is the ratio of an object's mass to its volume, so objects with high density have a lot of mass packed into a small space.
A small object with high density, such as a lead weight or a dense metal ball, would have a small capacity but a large mass due to the arrangement of its particles.
You can demagnetize a small object by exposing it to a strong magnetic field in the opposite direction to its current magnetization. Another method is to subject the object to high temperatures, which can disrupt the alignment of the magnetic domains and demagnetize it.
if high it might make a high and hard crater if it is a small crater it might would make a small and smooth crater
A hydrogen balloon, or for safety's sake, a helium balloon.
If you mean to ask what is the effect of gravity on a rotating body then I suggest you try two experiments: 1) Spin a small steel ball up to 15,000 to 20,000 rpm in vacuum and drop it. 2) Drop two magents from a height. One rotating at high speeds and the other not rotating. You may or may not get interesting results.
do not drop it from too high up or you may dent the thin detroit tin.
to provide high small signal impedance yet not requiring large DC drop
False. Momentum is a product of an object's mass and velocity, so even if the object is small, it can have a large momentum if it has a high velocity. It doesn't need to be stationary to have a large momentum.
You can but when you drop them, don't throw it or it might get damaged.
the drop on the goliath is 235 feet
The force needed to accelerate an object at some rate is proportional to the object's mass.The object may be moved by as small a force as you want. It just won't accelerate at a very high rate.