There are exactly 25.4 mm for each inch. Therefore, there are 16*25.4=406.4 mm in 16 inches. Assuming that 4 mm beads occupy exactly 4 mm along the length, this would allow 406.4/4=101.6 beads to occupy that length. In other words, you would have 101 beads but only 6/10=3/5 of a bead until you got to the 16 inch mark. Thus the answer is 101 whole beads with a little bit left over given the assumption about bead length.
As a practical matter, the above calculation assumes that the beads are to occupy the entire "strand" and that the length given is not the entire length of the beading string itself, which would be longer in order to tie it. if the beads are actually a little shorter than 4mm or they don't have to be aligned along the length of the beading string exactly, you might be able to get 102 or more beads "along" the length.
Read more: How_many_8mm_beads_in_16_inches
4mm is 0.15748032 of an inch.
4mm equals approximately 1/6th of an inch. there are 25.4 millimeters to an inch.
About four millimetres (4mm)
4 mm = 0.004 metres
6 centimeters plus 4 millimeters = 6.4 centimeters.1 millimeter = 0.1 centimeters
There are 25.4mm to one (1) inch, so there would be approximately six (6) 4mm beads per inch. If buying a 16" hank of 4mm bicone beads, you would be buying approximately 100 4mm beads.
4mm is 0.15748032 of an inch.
4mm = 4/25.4 in = 40/254 = 20/127 inch.
4mm is 11/64th's of one inch Direct Conversion Formula 4 mm* 1 in 25.4 mm = 0.157480315 in
4mm equals approximately 1/6th of an inch. there are 25.4 millimeters to an inch.
It is = 40/254, which can be simplified if required.
4mm is about 0.157480315 inches, *64 is just over 10, so 10/64 (5/32) is the closest fractional size.
1/16 inch = (1/16 * 25.4) = 1.5875 mm so, 4 mm = 4 / 1.5875 = 2.5197 sixteenths of an inch
Coronary Arteries are about the width of a drinking straw, approximately 1/8 inch (4mm)
A 4 mm drill bit is equivalent to 5/32 inch.
Exactly 0,4
4mm