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Most likely zero.
By changing the temperature of the liquid (an object is dropping in) the velocity is likely to increase as the temperature increases because by increasing the temperature of the liquid, the result would be that the object's velocity will increase.submittted by munchez :-)
action-reaction force
Momentum = mass * velocity = force * time Kinetic Energy = 1/2 * mass * velocity squared Since the mass of your object is not likely changing, it is the velocity which is changing. Therefore, your new velocity is 1.5 times your initial velocity. In the kinetic energy equation, velocity is squared. 1.5 squared = 2.25, and since nothing else is changing, your kinetic energy is now 2.25 times initial. This is an increase of 125%.
There are some particles that travel at the speed of light - mainly, the photon (the particle that makes up light), and the (hypothetical) graviton. No particles are known to travel faster than that, and it doesn't seem likely that this is at all possible.
Most likely zero.
capillarity
By changing the temperature of the liquid (an object is dropping in) the velocity is likely to increase as the temperature increases because by increasing the temperature of the liquid, the result would be that the object's velocity will increase.submittted by munchez :-)
sunlight increases
Increase
If you allow the string to wrap around the finger, as the radius diminishes, the force on the string increases , according to : > force = mass (of stone) * (velocity2 / radius) (assuming the velocity remains constant)
The small particle size found in silt (fine mud) is likely to travel furthest.
action-reaction force
heart
As grade point average increases, the number of scholarship offers increases (apex)
the negatively charged particle is an element
Decrease.