Weight of Brass given Factor of standard solution Calculator

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Number of Theoretical Plates and Capacity Factor

Important Formulae on Retention and Deviation

Relative and Adjusted Retention and Phase

✖Molecular Weight is the mass of a given molecule.ⓘ Molecular Weight [MW]			+10% -10%
✖Volume of Unknown Metal is its mass per unit volume. We can find the volume occupied by the given mass if we multiply by the density.ⓘ Volume of Unknown Metal [v′]			+10% -10%
✖Percentage of Metal is the amount of required metal oxide present in 100 volume unit of the sample.ⓘ Percentage of Metal [Metal%]			+10% -10%
✖Factor of Standard Solution the accurate weight of a substance in grams divided by the weight to be taken in grams.ⓘ Factor of Standard Solution [f_s]			+10% -10%

✖Weight of Brass is 8.55 times heavier than water for the same volume. One cubic foot of brass weighs 533 lbs.ⓘ Weight of Brass given Factor of standard solution [W_brass]

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Formula

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Weight of Brass given Factor of standard solution

Formula

`"W"_{"brass"} = ("MW"*"v′"*"Metal%")/("f"_{"s"}*1000)`

Example

`"1.02g"=("120g"*"50L"*"34")/("0.2"*1000)`

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Weight of Brass given Factor of standard solution Solution

STEP 0: Pre-Calculation Summary

Formula Used

Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000)
W_brass = (MW*v′*Metal%)/(f_s*1000)
This formula uses 5 Variables

Variables Used

Weight of Brass - (Measured in Kilogram) - Weight of Brass is 8.55 times heavier than water for the same volume. One cubic foot of brass weighs 533 lbs.
Molecular Weight - (Measured in Kilogram) - Molecular Weight is the mass of a given molecule.
Volume of Unknown Metal - (Measured in Cubic Meter) - Volume of Unknown Metal is its mass per unit volume. We can find the volume occupied by the given mass if we multiply by the density.
Percentage of Metal - Percentage of Metal is the amount of required metal oxide present in 100 volume unit of the sample.
Factor of Standard Solution - Factor of Standard Solution the accurate weight of a substance in grams divided by the weight to be taken in grams.

STEP 1: Convert Input(s) to Base Unit

Molecular Weight: 120 Gram --> 0.12 Kilogram (Check conversion here)
Volume of Unknown Metal: 50 Liter --> 0.05 Cubic Meter (Check conversion here)
Percentage of Metal: 34 --> No Conversion Required
Factor of Standard Solution: 0.2 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

W_brass = (MW*v′*Metal%)/(f_s*1000) --> (0.12*0.05*34)/(0.2*1000)

Evaluating ... ...

W_brass = 0.00102

STEP 3: Convert Result to Output's Unit

0.00102 Kilogram -->1.02 Gram (Check conversion here)

FINAL ANSWER

1.02 Gram <-- Weight of Brass

(Calculation completed in 00.004 seconds)

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Home » Chemistry » Analytical chemistry » Analytical Methods » Weight of Brass given Factor of standard solution

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< 25 Analytical Methods Calculators

Volume of Unknown Metal given Factor of Standard Solution

Go Volume of Unknown Metal = (Factor of Standard Solution*Weight of Brass*1000)/(Molecular Weight*Percentage of Metal)

Molecular Weight given Factor of standard solution

Go Molecular Weight = (Volume of Unknown Metal*Factor of Standard Solution*Percentage of Metal)/(Weight of Brass*1000)

Weight of Brass given Factor of standard solution

Go Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000)

Factor of Standard solution

Go Factor of Standard Solution = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Weight of Brass*1000)

Percentage Metal in Brass

Go Percentage of Metal = (Molecular Weight*Volume of Unknown Metal*Factor of Standard Solution)/(Weight of Brass*1000)

Concentration of Unknown Metal given Metal Oxide Percent

Go Strength of Unknown Metal = (Molecular Weight of Metal Oxide*Weight of Metal Oxide*25*100)/(1000*Percentage Metal oxide in Unknown Solid)

Percentage Metaloxide in Unknown Solid

Go Percentage Metal oxide in Unknown Solid = (Molecular Weight of Metal Oxide*Strength of Unknown Metal*25*100)/(1000*Weight of Metal Oxide)

Weight of Metal oxide given Percentage

Go Weight of Metal Oxide = (Molecular Weight of Metal Oxide*Strength of Unknown Metal*25*100)/(1000*Percentage Metal oxide in Unknown Solid)

Strength of Unknown Metal ion given Absorbance

Go Strength of Unknown Metal = (Absorbance of Unknown Metal/Absorbance of Known Metal)*Strength of Known Metal

Strength of Unknown Metal ion Solution

Go Strength of Known Metal = (Absorbance of Known Metal/Absorbance of Unknown Metal)*Strength of Unknown Metal

Absorbance of Unknown Metal

Go Absorbance of Unknown Metal = (Strength of Unknown Metal/Strength of Known Metal)*Absorbance of Known Metal

Absorbance of Known Metal

Go Absorbance of Known Metal = (Strength of Known Metal/Strength of Unknown Metal)*Absorbance of Unknown Metal

Hydrogen Concentration

Go Hydrogen Concentration = Total Ionic Concentration-Final Sodium Concentration+Initial Sodium Concentration

Strength of Standard EDTA

Go Strength of EDTA = (Weight of Metal Oxide*25)/(0.5475*Volume of Unknown Metal)*Strength of Unknown Metal

Magnesium Concentration given Hardness

Go Magnesium Concentration = (Total Hardness of Water-(2.497*Calcium Concentration))/4.118

Calcium Concentration given Hardness

Go Calcium Concentration = (Total Hardness of Water-(4.118*Magnesium Concentration))/2.497

Total Hardness

Go Total Hardness of Water = (2.497*Calcium Concentration)+(4.118*Magnesium Concentration)

Initial Sodium Hydroxide Concentration

Go Initial Sodium Concentration = Final Sodium Concentration-Potassium Concentration

Final Sodium Hydroxide Concentration

Go Final Sodium Concentration = Initial Sodium Concentration+Potassium Concentration

Potassium Estimation

Go Potassium Concentration = Final Sodium Concentration-Initial Sodium Concentration

Strength of Unknown Metal ion given Known Strength

Go Strength of Unknown Metal = (Strength of Known Metal*Volume of Unknown Metal)/25

Strength of known Metal ion given Unknown Strength

Go Strength of Known Metal = (Strength of Unknown Metal*25)/Volume of Unknown Metal

Volume of Unknown Metal

Go Volume of Unknown Metal = (Strength of Unknown Metal*25)/Strength of Known Metal

Total Concentration of Potassium and Hydrogen

Go Total Ionic Concentration = Hydrogen Concentration+Potassium Concentration

Strength of EDTA given Concentration of Zinc

Go Strength of EDTA = Final Zinc Concentration-Initial Zinc Concentration

Weight of Brass given Factor of standard solution Formula

Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000)
W_brass = (MW*v′*Metal%)/(f_s*1000)

What is the difference between fugacity and activity?

The difference is the ideal fluid used as the reference. In fugacity coefficient, the reference is ideal gas, while in activity coefficient, the reference is ideal solution. Within the same idea, the excess property is the difference between a property with its value at ideal solution condition.

How to Calculate Weight of Brass given Factor of standard solution?

Weight of Brass given Factor of standard solution calculator uses Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000) to calculate the Weight of Brass, The Weight of Brass given Factor of standard solution formula is defined as is 8.55 times heavier than water for the same volume. One cubic foot of brass weighs 533 lbs. Weight of Brass is denoted by W_brass symbol.

How to calculate Weight of Brass given Factor of standard solution using this online calculator? To use this online calculator for Weight of Brass given Factor of standard solution, enter Molecular Weight (MW), Volume of Unknown Metal (v′), Percentage of Metal (Metal%) & Factor of Standard Solution (f_s) and hit the calculate button. Here is how the Weight of Brass given Factor of standard solution calculation can be explained with given input values -> 1020 = (0.12*0.05*34)/(0.2*1000).

FAQ

What is Weight of Brass given Factor of standard solution?

The Weight of Brass given Factor of standard solution formula is defined as is 8.55 times heavier than water for the same volume. One cubic foot of brass weighs 533 lbs and is represented as W_brass = (MW*v′*Metal%)/(f_s*1000) or Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000). Molecular Weight is the mass of a given molecule, Volume of Unknown Metal is its mass per unit volume. We can find the volume occupied by the given mass if we multiply by the density, Percentage of Metal is the amount of required metal oxide present in 100 volume unit of the sample & Factor of Standard Solution the accurate weight of a substance in grams divided by the weight to be taken in grams.

How to calculate Weight of Brass given Factor of standard solution?

The Weight of Brass given Factor of standard solution formula is defined as is 8.55 times heavier than water for the same volume. One cubic foot of brass weighs 533 lbs is calculated using Weight of Brass = (Molecular Weight*Volume of Unknown Metal*Percentage of Metal)/(Factor of Standard Solution*1000). To calculate Weight of Brass given Factor of standard solution, you need Molecular Weight (MW), Volume of Unknown Metal (v′), Percentage of Metal (Metal%) & Factor of Standard Solution (f_s). With our tool, you need to enter the respective value for Molecular Weight, Volume of Unknown Metal, Percentage of Metal & Factor of Standard Solution and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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