Work is the product of (force) x (distance).
If, as you allege, the force increased but the work didn't change, then
the distance must have decreased, by exactly the same factor as the
increase in the force, so that their product is not changed.
not change
Distance = Rate x Time. So, if the Distance is increased or decreased OR/AND if the Time is increased or decreased it will change your speed.
Does not multiply energy. Work done or energy used (force * distance) remains the same at both ends. Force or torque can be increased or decreased depending on mechanical advantage. It can change the direction of the force or torque.
Yes, it will increase so that density of the material always remains constant.
(change in distance) divided by (time interval) = the object's average speed during that time interval.
not change
No, because mass is the amount of matter contained in a body. So whatever may be the distance from the center of gravity it always remains the same.
Distance = Rate x Time. So, if the Distance is increased or decreased OR/AND if the Time is increased or decreased it will change your speed.
The amount of oxygen increased greatly
C no change in amount of urine
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The density of most substances will change if temperature is increased. The amount of change depends on the difference between the two temperatures.
Does not multiply energy. Work done or energy used (force * distance) remains the same at both ends. Force or torque can be increased or decreased depending on mechanical advantage. It can change the direction of the force or torque.
Yes, it will increase so that density of the material always remains constant.
(change in distance) divided by (time interval) = the object's average speed during that time interval.
The Cell volume is increased, for one thing. Surely and Certainly Osmotic forces will move [relocate] cell-matter constituents to adjust to the change; what change - the change in the concentrations of the contents that resulted from the increased quantity of [contained] water.
increased dust in the atmosphere