Then b = kc3/d2 where k is some positive constant.
q = k*r^3/(s*sqrt(t))
(a+b)cube = a cube + b cube + 3a square b + 3ab square
If a face on a cube is 49 square meters the cube's volume is: 343 m3
no. a square is a 2 dimensional object and a cube is 3 dimensional
Square: 1,4,9,16,25,36,49,64,81,and 100 cube: sorry?!?
q = k*r^3/(s*sqrt(t))
C = k*a*d*e^3/sqrt(m) where k is a constant.
Provided the shape remains similar, the surface varies as the 2/3 power of the volume. Or, to put it another way, the cube root of the volume varies directly as the square root of the surface area. Or, the square of the volume is in direct proportion to the cube of the area.
I'm pretty sure the answer is: C= de3k/ √m (C equals d times e cubed times k, divided by the square root of m).
y = c*x3 where c is the constant of proportionality.
the depression at the middle of the beam is directly proportional to the cube of its length, inversely proportional to the breadth and inversely proportional to the cube of its thickness.ð = MgL3 / 4Ybd3ð = depression,M= mass,g= gravity,L= length of beam ,Y= youngs modulus of material ,b= breadth,d= thickness.
a square because a square is in a cube!!!
square it and cube it
Square=2 Cube=3
sorry, it is wrong the answer is : y=k/x2(square) {when y = x we will write y as x and leave x2(square) alone. like this: x=120/x2(square) x multiply by x2(square) is x3(cube) so cube root of 120 = x so x is 4.93
a cube
A lot of things. For example, a cube has 8 vertices, the square pyramid has 5. A cube also has more edges and faces than the pyramid. All the faces of the cube are squares, while the pyramid only has one square face. Also, all the angles in the cube are right angles, while the angles in a square pyramid (in the usual sense of a pyramid where the apex is directly above the center of the base) are acute. In any case, they are not all right angles.