It is: 886 = 384 square mm
6 faces, each of 8mm*8mm = 6*64mm2 = 384 mm2
you start by dividing the total area by the number of sides which there are 8 (octo-) 64mm / 8 sides = 8mm per side of the octohedren.
64 mm squared. (8mm multiplied by 8mm)
512 mm3
A hexagon has 6 sides of equal length. The perimeter of a hexagon with a side length of 8mm = 6 x 8mm = 48mm.
6 faces, each of 8mm*8mm = 6*64mm2 = 384 mm2
you start by dividing the total area by the number of sides which there are 8 (octo-) 64mm / 8 sides = 8mm per side of the octohedren.
64 mm squared. (8mm multiplied by 8mm)
512 mm3
A hexagon has 6 sides of equal length. The perimeter of a hexagon with a side length of 8mm = 6 x 8mm = 48mm.
Calculate cross sectional area of 10mm bar amd 8mm bar, then divide them and you will get the no. of bars. For Eg. - Area of 10mm bar = 78.53 sq.mm Area of 8mm bar = 50.26 sq.mm No. of 8mm bars in replacement for 10mm bar = 1.562 bars [ theoritical] In practical u'll provide 2-8mm bars.
38.4 sq. mm
through scanning or filming it off a white surface and thjen digitalizing the tape
It depends on the scale of that particular map.
8mm tapes can only be viewed with the aid of an 8mm player. One's best bet to watch 8mm tapes in this case is to purchase another 8mm player that is not broken.
It is: 0.5*6*8 = 24 square mm
Measure the width of the film, if it equals 8mm then you have an 8mm tape.