Size of Smallest Particle in Fuller Law Calculator

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Pavement Materials

Design of Transition Curves and Setback Distances

Design of Superelevation

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Specific Gravity and Water Absorption

✖Largest particle refers to the most sizable or biggest constituent within a given material or sample.ⓘ Largest Particle [D]			+10% -10%
✖Percentage of weight refers to the proportion or fraction of a specific weight in relation to the total weight, expressed as a percentage.ⓘ Percentage of Weight [P_weight]			+10% -10%
✖Coarseness of Aggregates characterizes the particle size distribution of aggregates, aiding in determining the level of fineness or coarseness within the aggregate mix.ⓘ Coarseness of Aggregates [n]			+10% -10%

✖Smallest particle denotes the tiniest or most minute component present within a given material or sample.ⓘ Size of Smallest Particle in Fuller Law [d]

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Formula

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Size of Smallest Particle in Fuller Law

Formula

`"d" = "D"*("P"_{"weight"}/100)^(1/"n")`

Example

`"32.99961mm"="88mm"*("78.254"/100)^(1/"0.25")`

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Size of Smallest Particle in Fuller Law Solution

STEP 0: Pre-Calculation Summary

Formula Used

Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates)
d = D*(P_weight/100)^(1/n)
This formula uses 4 Variables

Variables Used

Smallest Particle - (Measured in Meter) - Smallest particle denotes the tiniest or most minute component present within a given material or sample.
Largest Particle - (Measured in Meter) - Largest particle refers to the most sizable or biggest constituent within a given material or sample.
Percentage of Weight - Percentage of weight refers to the proportion or fraction of a specific weight in relation to the total weight, expressed as a percentage.
Coarseness of Aggregates - Coarseness of Aggregates characterizes the particle size distribution of aggregates, aiding in determining the level of fineness or coarseness within the aggregate mix.

STEP 1: Convert Input(s) to Base Unit

Largest Particle: 88 Millimeter --> 0.088 Meter (Check conversion here)
Percentage of Weight: 78.254 --> No Conversion Required
Coarseness of Aggregates: 0.25 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

d = D*(P_weight/100)^(1/n) --> 0.088*(78.254/100)^(1/0.25)

Evaluating ... ...

d = 0.0329996137160714

STEP 3: Convert Result to Output's Unit

0.0329996137160714 Meter -->32.9996137160715 Millimeter (Check conversion here)

FINAL ANSWER

32.9996137160715 ≈ 32.99961 Millimeter <-- Smallest Particle

(Calculation completed in 00.004 seconds)

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Coarseness of Aggregates in Fuller Law

Go Coarseness of Aggregates = (log10(Percentage of Weight/100))/(log10(Smallest Particle/Largest Particle))

Size of Smallest Particle in Fuller Law

Go Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates)

Size of Largest Particle in Fuller Law

Go Largest Particle = Smallest Particle/(Percentage of Weight/100)^(1/Coarseness of Aggregates)

Percent by Weight in Fuller Law

Go Percentage of Weight = 100*(Smallest Particle/Largest Particle)^Coarseness of Aggregates

Size of Smallest Particle in Fuller Law Formula

Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates)
d = D*(P_weight/100)^(1/n)

Fuller Law

The Fuller Law defines the relationship between the volume of fine aggregates in concrete mixtures and their optimal packing density, guiding the ideal aggregate volume for maximum density and workability.

How to Calculate Size of Smallest Particle in Fuller Law?

Size of Smallest Particle in Fuller Law calculator uses Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates) to calculate the Smallest Particle, The Size of Smallest Particle in Fuller Law formula is determined by multiplying the largest particle size by the result of the percentage of weight divided by 100, raised to the power of the reciprocal of the coarseness of aggregates. Smallest Particle is denoted by d symbol.

How to calculate Size of Smallest Particle in Fuller Law using this online calculator? To use this online calculator for Size of Smallest Particle in Fuller Law, enter Largest Particle (D), Percentage of Weight (P_weight) & Coarseness of Aggregates (n) and hit the calculate button. Here is how the Size of Smallest Particle in Fuller Law calculation can be explained with given input values -> 32999.61 = 0.088*(78.254/100)^(1/0.25).

FAQ

What is Size of Smallest Particle in Fuller Law?

The Size of Smallest Particle in Fuller Law formula is determined by multiplying the largest particle size by the result of the percentage of weight divided by 100, raised to the power of the reciprocal of the coarseness of aggregates and is represented as d = D*(P_weight/100)^(1/n) or Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates). Largest particle refers to the most sizable or biggest constituent within a given material or sample, Percentage of weight refers to the proportion or fraction of a specific weight in relation to the total weight, expressed as a percentage & Coarseness of Aggregates characterizes the particle size distribution of aggregates, aiding in determining the level of fineness or coarseness within the aggregate mix.

How to calculate Size of Smallest Particle in Fuller Law?

The Size of Smallest Particle in Fuller Law formula is determined by multiplying the largest particle size by the result of the percentage of weight divided by 100, raised to the power of the reciprocal of the coarseness of aggregates is calculated using Smallest Particle = Largest Particle*(Percentage of Weight/100)^(1/Coarseness of Aggregates). To calculate Size of Smallest Particle in Fuller Law, you need Largest Particle (D), Percentage of Weight (P_weight) & Coarseness of Aggregates (n). With our tool, you need to enter the respective value for Largest Particle, Percentage of Weight & Coarseness of Aggregates 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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