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how much momentum will a dumbbell of mass 10kg transfer to the floor ,if its fall from a height of 0.8m
1 leaves a shoe in the tree.
A pebble and a shoe fall at different speeds and accelerations because the shoe is generally heavier than a pebble. The pebble has less mass than the shoe, so it will fall slower, because there is less of a gravitational force on it. The shoe, however, being bigger and having more mass than the pebble, will fall faster and land harder because gravity has a stronger pull on it.
Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.Gravitational potential energy is equal to mass x gravity x height. Changing either the mass or the height will work.
In general, as objects get larger, mass increases faster than height, because height is a linear, or one dimensional measurement, whereas mass is related to volume, and volume would as a general rule be proportional to the cube of the height. I will add that your question is rather vague. A person who is getting fat, for example, could double in mass without any change in height. An empty box could have something put inside it that would cause it to double in mass without any increase in height. There are many different possible situations involving increased mass, which would have a variety of effects on height.
Rock fall & Landslides
Who found (discovered) that objects of different mass and weight fall at the same rate
it went up because the mass increases
"Does The Height of an Object Affect its mass?"*short answer - no. longer answer - mass is constant for a given object... WEIGHT is what changes at different heights above earth.*learn to spell, noob!
depends on the mass of the stone, the shape of the stone, and the height dropped from. sorry dude.
how much momentum will a dumbbell of mass 10kg transfer to the floor ,if its fall from a height of 0.8m
If you ignore air resistance, then they will reach their maximum height at the same time. In order not to ignore air resistance, you would need to know their shapes.
GPE = Mass * Height so Mass = GPE/Height
1 leaves a shoe in the tree.
A pebble and a shoe fall at different speeds and accelerations because the shoe is generally heavier than a pebble. The pebble has less mass than the shoe, so it will fall slower, because there is less of a gravitational force on it. The shoe, however, being bigger and having more mass than the pebble, will fall faster and land harder because gravity has a stronger pull on it.
Galileo's experiment to show that mass had little effect on the speed of falling objects involved two cannonballs of different sizes being dropped from a certain height. This showed that, in a vacuum at least, falling objects fall at the same speed no matter their mass.
In general, as objects get larger, mass increases faster than height, because height is a linear, or one dimensional measurement, whereas mass is related to volume, and volume would as a general rule be proportional to the cube of the height. I will add that your question is rather vague. A person who is getting fat, for example, could double in mass without any change in height. An empty box could have something put inside it that would cause it to double in mass without any increase in height. There are many different possible situations involving increased mass, which would have a variety of effects on height.