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The relationship between the period of time and the velocity in circular motion is inverse. As the period of time increases, the velocity decreases, and vice versa. This is because velocity is defined as the distance traveled per unit of time, so if the same distance is covered in a longer period of time, the velocity will be lower.
Velocity is the change in position r over time t; v= dr/dt= r/t. Acceleration is the second derivative of position a = dv/dt = d2r/t2
You can use the ideal gas law: PV=RTn, where: P is the pressure V is the volume R is the proportionality constant, the so-called "gas constant" T is the absolute temperature n is the number of moles
Vav = d/t in this case the d is the cirmunference and t is time. therefore it is (2)(pi)(r) / (t) where r is the raduis
The volume of air increases proportionally as it is heated, according to the formula: PV/T = P'V'/T' Where P, V, and T are initial values for pressure, volume and temperature in absolute terms and P',V',and T' are the final values with a constant pressure the equation becomes: V/T = V'/T' to solve for final volume the equation is: VT'/T = V' if V=1cu. meter, T = 200K and T' = 300K then 1 cu.meter x 300K/200K = 1.5 cu.meter
t < r
the relationship between the values t and s
The relationship between time and space is, r=ct or space = the speed of light times time.Time t = r/c or time is space divided by the speed of light.Space r is a real number as time t and cthe speed of light.
Unfortunately, the browser used by Answers.com for posting questions is incapable of accepting mathematical symbols. This means that we cannot see the mathematically critical parts of the question. We are, therefore unable to determine what exactly the question is about and so cannot give a proper answer to your question. Please edit your question to include words for symbols and resubmit.It is necessary to know what the missing symbols are, because they will determine whether or not the relationship is transitive. If the relation ~ is transitive, then t~s and s~r imply that t~r. However, there are many simple relationships which are non-transitive.For example,if t is the additive inverse of s, and s is the additive inverse of r then t is not the additive inverse of r: it is r. Multiplicative inverses behave similarly.if t is the square of s, and s is the square of r, then t is the fourth power of r. Multiples [ t = 5*s] behave similarly.
Absorbance = -log (percent transmittance/100)
MTBF = 1/failure rate R(t) = e (-t/MTBF) http://www.vicorpower.com/documents/quality/Rel_MTBF.pdf
The word "below" seems to imply that there is some graphic. However, I see no such graphic.
r-t-s
It means 'define the relationship'
The word "relationship" spelled backwards is "p-i-h-s-t-i-l-a-t-i-o-n-e-r".
If it's DC voltage, the relationship between current, resistance and voltage is defined by Ohm's Law. V = I / R A little manipulation shows that I = V * R. If The voltage and/or resistance varies with time, an easy way to describe it would be thus: I(t) = V(t) * R(t) Where I(t), V(t) and R(t) are all functions of time.
Directly proportional relationship is F=ma, F is directly proportional to a. Inversely proportional relationship is v=r/t, v is inversely proportional to t.