2 squared is 4 3 cubed is 27 27 plus 4 is 31
Sphere: 4/3*pi*r3 Tetrahedron: s3*sqrt(2)/12 Cube: s3 Octahedron: s3*sqrt(2)/3 Dodecahedron: s3*[15+7*sqrt(5)]/4 Icosahedron: s3*5/12*(3+sqrt(5) where r is the radius and s is the length of each edge.
Points S and V
S = v*t s = displacement v = velocity t = time
s=5 f+s=? Substitute 5 in for s.Substitute 1 in for f.f+s=f+5f=11+5 ={6}
s=6
If you know the length of a side, s, V = s3
The volume of a cube is a side cubed. V=S3 So, to find the length of a side, solve for S, to find that the side equals the cube root of the volume. Ex: Volume=8 cubic meters Then 8=S3, therefore s=2 meters.
Measure the length of one edge, in centimeters. Call this number 'S'. The volume of the cube is V = S3/1,000 or 0.001 S3 liters
For volume of a cube, V=S3 For surface area, A=6S2 S is the length of one side.
S=vt-16t2 solve for v is what I will assume you mean. first pull out the t S=t(v-16t) then devide by t S/t=v-16t Then add 16t to both sides S/t + 16t = v This can also be written as (S+16t2)/t = v
if it is a cube, then it has a surface area equals to V = s3 V = 50 in3 s3 = 50 in3 s = (50 in3)1/3 s = 501/3 in A = 6s2 = 6(501/3 in)2 = 6(2500)1/3 in2 =6(125*20)1/3 in2 =6*5(20)1/3 in2 = 30(20)1/3 in2
2 squared is 4 3 cubed is 27 27 plus 4 is 31
The idea is to use the formula for the volume of a cube: V = s3 Where "V" is the volume, and "s" is the length of one side. Just replace the variable "s" with the actual length, and do the calculations.
Voice in a Solo?
v
Well, V=s/tso, V/t = (s/t)/tor V/t = s/t * 1/tso, V/t= s/(t^2). It is equal to acceleration.