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The weight is determined by the amount of metal contained in a one foot length of a 4 inch diameter round rod. To find the amount of the aluminum's weight by volume, do the following:Find the cross-sectional area of the circle at the end of the round rod:Radius (r) = diameter/2 = (4 inches)/2 = 2 inchesArea (A) = radius(squared) * PI = (2)^2 * 3.14159 = 12.566 square inchesMultiply by the length of the rod:Volume (V) = Area * Length = 12.566 sq.in. * 12 inches = 150.8 cubic inchesAccording to the page atWhat_is_the_weight_of_one_cubic_inch_of_6061_aluminum, the weight of one cubic inch of 6061 alluminum alloy is .0975 lb. So multiply the volume of the round rod in cubic inches by this weight:Total weight (W) = 150.8 cubic inches * .0975 lb. = 14.7 lb. (Answer!)If you happen to have had an Aluminum bar that was rectangular instead of round, the area would be instead calculated as A= width * height, and all subsequent calculations afterwards would remain the same.
the weight should be change by the diameter of the rod.one rod length is thirteen meter and it should be measured in meter only. The formulae to find the weight of rod is d square /162 and you wil get unit weight then multiply it in length then u got a weight of the rod.
Well it will be where the wright of the overhang rod equals the weight of the rod plus the weight of the 10kg so we have 60kg total weight we will need 30 on each side so you will have 30kg of the rod weight on one side of the balance and 20 rod and 10 of the weight on the other so you have 20/50th or 2/5th of the rod weight on the side with the weight so 6m=2/5th * L where L is the length of the rod so 6*5/2=L or the rod is 15m long.
The length (one of the spatial dimensions) of an aluminum rod increases when the temperature of the rod increases (so does the height and width of the rod - the other two spatial dimensions - but for a thin rod those changes are not as noticeable.
The amount of weight a curtain rod can support depends on how many support brackets are helping support it. The more supports, the more weight. If there are no supports a typical rod can hold 20-30 lbs.
Formula of hexagonal ms rod
weight of all steel can be calculated by multiplying unit volume with density.
D*d/162 = 25*25/162 = 3.85kg/m
There is a slight difference between aluminum foil and an aluminum rod or powder. This difference is simply the shape it takes.
The weight is determined by the amount of metal contained in a one foot length of a 4 inch diameter round rod. To find the amount of the aluminum's weight by volume, do the following:Find the cross-sectional area of the circle at the end of the round rod:Radius (r) = diameter/2 = (4 inches)/2 = 2 inchesArea (A) = radius(squared) * PI = (2)^2 * 3.14159 = 12.566 square inchesMultiply by the length of the rod:Volume (V) = Area * Length = 12.566 sq.in. * 12 inches = 150.8 cubic inchesAccording to the page atWhat_is_the_weight_of_one_cubic_inch_of_6061_aluminum, the weight of one cubic inch of 6061 alluminum alloy is .0975 lb. So multiply the volume of the round rod in cubic inches by this weight:Total weight (W) = 150.8 cubic inches * .0975 lb. = 14.7 lb. (Answer!)If you happen to have had an Aluminum bar that was rectangular instead of round, the area would be instead calculated as A= width * height, and all subsequent calculations afterwards would remain the same.
You need the length of the rod to compute the weight. To do so, you can calculate the volume of the rod, which would be length*Pi*22 multiplied by the density of MS, which is 7.86 g/cm3, or simply 15.72(Pi)*length of the rod Mildsteel rod 40mm dia. = 9.85 kg per metre. I think that is what you asked.
"Solid Steel" would not be a pipe- it would be a rod. Weight of pipe will vary depending on the thickness of the wall of the pipe.
The EC grade aluminum rod refers to the electrical conductor grade aluminum rod that is commonly used in electrical and electronic applications due to its high conductivity. The term EC is an abbreviation for "Electrical Conductor." To calculate the mean or average of the EC content in EC grade aluminum rod, we need to know the composition of the rod, specifically the percentage of EC in the material. This information can be obtained from the manufacturer or supplier of the aluminum rod. Once the EC content is determined, calculating the mean would involve adding up the values for each sample and dividing by the total number of samples. However, it's important to note that EC grade aluminum rod typically has a minimum purity level of 99.45% or higher, which means the variation in EC content between different samples may be minimal. Without knowing the specific percentage of EC content in the EC grade aluminum rod, it's not possible to calculate the mean. However, it's safe to assume that the variation in EC content between different samples is likely to be minimal due to the high purity level of the material.
1 rod = 198 inches, so a square rod = (198 in)² = 39204 in²
A rod was defined as 16.5 feet, which is 198 inches.
the weight should be change by the diameter of the rod.one rod length is thirteen meter and it should be measured in meter only. The formulae to find the weight of rod is d square /162 and you wil get unit weight then multiply it in length then u got a weight of the rod.
0.125 rod = 0.000390625 mile