a is directly proportional to the square of m
So a = cm2 where c is the constant of proportionality.
a = 2.5 when m = 18.75
2.5 = c*18.752 c = 2.5/18.752
When m = 6,
a = (2.5/18.752) * 62
= 90/18.752 = 0.256
I think that you draw a square from that line, and find the area of that square.
u find the common denominator
The Answers community requires more information for this question. Please edit your question to include more context. The answer will depend on the nature of proportionality between the two variables: is y directly proportional to x, or some power of x, is it inversely proportional?.
s = 11*t/sqrt(46).
The land you are measuring is probably a rectangle, find the length of 2 sides (that are not directly across from each other) and then multiply them.
Measure the period, the period is directly proportional to the square root of the length.
s is directly proportional to t
i think it would be like this: 4:25 :: 1:6.25
The force between two magnetic fields is directly proportional to the product of their magnitudes - and inversely proportional to the square of the distance between them. As an object gets further away, the influencing field decreases because of the increased area it affects. and the equation to find the force that acts between the two magntised objects is Force = (q1 x q2) / r^2 well the force is 'proportional' to that equation but i cant do a symbol for that. the force is measured in Newtons (N) and the r (radius) is measured in metres.
the equation for an ideal gas is pv / t = nr n * r is a constant for a closed system p pressure v volume t temperature in kelvin p1 v1 /t1 = p2 v2 /t2 if p1 = p2 v1/t1 = v2/t2 t2= v2/v1 *t1 directly proportional to the change in volume if v1 = v2 the same can be done and you will find that t is directly proportional to change in pressure. generally t is directly proportional to the product of pressure and volume. pv = nr t
we can cross multiply the two equivalent equations and then find the fourth proportional
I think that you draw a square from that line, and find the area of that square.
if they are proportional
u find the common denominator
Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
In the USA, Nebraska and Maine.
The Answers community requires more information for this question. Please edit your question to include more context. The answer will depend on the nature of proportionality between the two variables: is y directly proportional to x, or some power of x, is it inversely proportional?.