volume -( V) = (4/3) π r³ dV/dt where r is the radius and t is time in units
The volume of a cylinder (several actually) is important in respect to car engines. A 2 litre engine has cylinders that together create a volume of 2 litres.
If the length of an edge is x, the volume is x3 To find the rate of change of the volume with respect to x, differentiate: d(x3)/dx = 3x2 The area of one face is x2 There are six faces so the total surface area is 6x2 Therefore the rate of change of volume, 3x2 , is half of 6x2 , the surface area.
I'm not sure about the respect to time, but the equation for velocity is the first derivative of the equation of time (w/ respect to distance) and acceleration is the second derivative. I'm sorry, I don't think I properly answered your question, but this information should be correct. . :)
Base units need not have ANY volume. A second is the base unit for measuring time and it has no volume!
Use the volume formula length time width time height
we respect our time beacuse the time we will waste that never come back
A behavior of respect iz when ppl respect themselves and then take the time to respect others
The volume of a cylinder (several actually) is important in respect to car engines. A 2 litre engine has cylinders that together create a volume of 2 litres.
They are derivatives with respect to measures in space: normally length, area or volume.
Derivatives are usually taken with respect to time. The first derivative would have units of volume / time, i.e., a flow - for example - "so-and-so many cubic meters per second flow down our river".The second derivate would refer to a change in the flow - when the flow of a liquid or gas increases or decreases with time.
The flow rate is simply the volume moved in a specific time; divide the volume by the time.
Independent variable is one that does not vary with respect to other variables while other variables called the dependent variables varies with the variation of the independent variable. for ex: if 'x' is is an independent variable that represents say 'time' lets take another variable the dependent like volume(v) . now we say the volume (v) varies with respect to time and not the other way. so, here 'x' is independent variable & 'v' is dependent variable
First derivative of displacement with respect to time = velocity. Second derivative of displacement with respect to time = acceleration. Third derivative of displacement with respect to time = jerk.
kidney
you should respect time because even if you waste one second that second will never come back. don't waste time
This is the ratio volume/time.
If the length of an edge is x, the volume is x3 To find the rate of change of the volume with respect to x, differentiate: d(x3)/dx = 3x2 The area of one face is x2 There are six faces so the total surface area is 6x2 Therefore the rate of change of volume, 3x2 , is half of 6x2 , the surface area.