The unit weight of Fe 500 grade steel is approximately 7.85 kg/m^3, while the unit weight of Fe 450 grade steel is also approximately 7.85 kg/m^3.
To calculate the Fe content in FeO, you need to consider that Fe accounts for about 71.85% of the FeO compound's molecular weight. For Fe2O3, each Fe atom accounts for about 69.94% of the compound's molecular weight. After determining the molecular weight of FeO and Fe2O3, you can find the Fe content by multiplying the molecular weight of Fe by the appropriate percentage.
FE is Iron atomic weight: 55.845(2) g·mol−1
To do this, you need to know the atomic weight of the element you're dealing with, found on any periodic table. The atomic weight is the mass in grams of the element in one mole - this will provide you with a conversion factor. So take the measurement in moles and multiply it by the atomic weight to convert to grams. Really what you're doing is dividing the number by 1 mole, and multiplying it by the equivalent of one mole, the atomic weight. That's the thought process behind unit analysis and how you get your "units to cancel".In this case, the answer is about 882.43 grams Fe.
Fe in Fe500 steel stands for iron, which is the primary element in the steel alloy. The number 500 refers to the minimum yield strength of the steel in MegaPascals (MPa), which in this case is 500 MPa.
To find the number of moles in 23 g of Fe, first find the molar mass of Fe by looking up the atomic weight on the periodic table. Fe has a molar mass of approximately 55.85 g/mol. Divide the given mass by the molar mass to find the number of moles: 23 g Fe / 55.85 g/mol = approximately 0.41 moles of Fe.
Fe 415 and Fe 500 - both are the types of reinforcement steel. The basic difference is in the tensile strength -denoted by 415 & 500. Fe 500 is economical in comparison with Fe 415.
To calculate the Fe content in FeO, you need to consider that Fe accounts for about 71.85% of the FeO compound's molecular weight. For Fe2O3, each Fe atom accounts for about 69.94% of the compound's molecular weight. After determining the molecular weight of FeO and Fe2O3, you can find the Fe content by multiplying the molecular weight of Fe by the appropriate percentage.
500 miles
Known/Given:1 mole of Fe = 55.845g Fe (its atomic weight in grams)1 mole of Fe = 6.022 x 1023 atoms Fe (from Avogadro's number)Convert grams Fe to moles Fe.600.0g Fe x 1mol Fe/55.845g Fe = 10.74mol FeConvert moles Fe to atoms Fe.10.74mol Fe x 6.022 x 1023atoms Fe/1mol Fe = 6.468 x 1024atoms Fe
FE is Iron atomic weight: 55.845(2) g·mol−1
The curb weight of the 2008 Hyundai Santa-FE is 3727 lbs..
The curb weight of the 2011 Hyundai Santa-FE is 3688 lbs..
The curb weight of the 2007 Hyundai Santa-FE is 3727 lbs..
The curb weight of the 2006 Hyundai Santa-FE is 3549 lbs..
The curb weight of the 2004 Hyundai Santa-FE is 3494 lbs..
The curb weight of the 2013 Hyundai Santa-FE is 3459 lbs..
The curb weight of the 2012 Hyundai Santa-FE is 3725 lbs..