Oh, dude, let me do the math for you. So, if we have a 4.5 meter rope, that's like 450 centimeters. And if we're cutting 25 centimeter lengths, we can cut 18 of those bad boys from the rope. Easy peasy lemon squeezy.
Assuming there is no waste, you will get exactly 10 lengths of rope all 2 metres long.
55/2 = 27.5 so 27 with 1 remaining meter
Well, isn't that a lovely question! Let's see here, if we have a 4.5m rope and we want to cut it into 25cm lengths, we simply need to divide the total length of the rope by the length of each piece. So, 4.5m is equal to 450cm, and when we divide 450cm by 25cm, we find that we can cut 18 pieces of 25cm length from the rope. Happy little calculations!
The maximum area that you can contain with a 4-meter rope is a circle with a diameter of 4/π meters and an area of 4/π square meters, or about 1.273 square meters. If you use the rope to make an equilateral triangle with sides of 4/3 meter, you get an area of (4/9)(√3) or 0.770 square meters. If you use the rope to make a square with sides of 1 meter, you get an area of 1.000 square meter. If you make a polygon with more sides, the area bounded by your 4-meter rope will increase, approaching the limit of 4/π as the number of sides increases.
The answer to this is 350cm. This is because 1 meter is 100 cm. So you must multiply 3.5 by 100 which gives you 350cm. Good luck! ;)
Assuming there is no waste, you will get exactly 10 lengths of rope all 2 metres long.
Metric Conversion: No Prefix (meter) - 1 - 1 meter in a meter Centi (centimeter) - 100 - 100 cm in a meter Milli (millimeter) - 1000 - 1000 mm in a meter From this you can derive other relationships. For example, to determine how many millimeters in a centimeter you can divide 1000(number of millimeters in a meter) by 100 (number of centimers in a meter) to get 10 millimeters in a centimeter. Since you have 440 centimeters and you need to convert it to millimeters, you multiple the number by 10 (the amount of millimeters in a centimeter) to get 4400 millimeters. Also, stop cheating on your homework.
Lengths of rope, wood, copper, steal to name a few. What a random question? :S do you not leave the house or something? Lengths of rope, wood, copper, steal to name a few. What a random question? :S do you not leave the house or something?
"Rope sailing," also known as "sailing rope" refers to all the different types of things made out of rope that are used in sailing. It can include long lengths of rope or small buckles made with small lengths of rope.
55/2 = 27.5 so 27 with 1 remaining meter
Well, isn't that a lovely question! Let's see here, if we have a 4.5m rope and we want to cut it into 25cm lengths, we simply need to divide the total length of the rope by the length of each piece. So, 4.5m is equal to 450cm, and when we divide 450cm by 25cm, we find that we can cut 18 pieces of 25cm length from the rope. Happy little calculations!
The maximum area that you can contain with a 4-meter rope is a circle with a diameter of 4/π meters and an area of 4/π square meters, or about 1.273 square meters. If you use the rope to make an equilateral triangle with sides of 4/3 meter, you get an area of (4/9)(√3) or 0.770 square meters. If you use the rope to make a square with sides of 1 meter, you get an area of 1.000 square meter. If you make a polygon with more sides, the area bounded by your 4-meter rope will increase, approaching the limit of 4/π as the number of sides increases.
The answer to this is 350cm. This is because 1 meter is 100 cm. So you must multiply 3.5 by 100 which gives you 350cm. Good luck! ;)
-6.3
By mechanical advantage. The multiple lengths of rope divide the force needed to lift an object everytime the rope reverses direction thru a pully.
The differences are the lengths of the ropes a head rope is 32ft and the heel rope is 35ft. Usually when your headin you want a smaller loop, with a heel rope you want a larger loop.
i really dont get it