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Height of Drop given Allowable Load for Steam Hammer Driven Piles Formula

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Height of Drop for Steam Hammer is the vertical distance over which a steam drop hammer falls to compact soil or other materials in field compaction tests. Check FAQs

H sd = \frac{P a \cdot (p + 0.1)}{2 \cdot W h}

H_sd - Height of Drop for Steam Hammer?P_a - Allowable Pile Load?p - Penetration per Blow?W_h - Hammer Weight?

Height of Drop given Allowable Load for Steam Hammer Driven Piles Example

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Here is how the Height of Drop given Allowable Load for Steam Hammer Driven Piles equation looks like with Values.

Here is how the Height of Drop given Allowable Load for Steam Hammer Driven Piles equation looks like with Units.

Here is how the Height of Drop given Allowable Load for Steam Hammer Driven Piles equation looks like.

0.0305 = \frac{12.09 \cdot (2 + 0.1)}{2 \cdot 20.19}

0.0305m = \frac{12.09kg \cdot (2mm + 0.1)}{2 \cdot 20.19kg}

0.0305 = \frac{12.09 \cdot (2 + 0.1)}{2 \cdot 20.19}

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Height of Drop given Allowable Load for Steam Hammer Driven Piles Solution

Follow our step by step solution on how to calculate Height of Drop given Allowable Load for Steam Hammer Driven Piles?

FIRST Step Consider the formula

H sd = \frac{P a \cdot (p + 0.1)}{2 \cdot W h}

Next Step Substitute values of Variables

∴

H sd = \frac{12.09kg \cdot (2mm + 0.1)}{2 \cdot 20.19kg}

Next Step Convert Units

∴

H sd = \frac{12.09kg \cdot (0.002m + 0.1)}{2 \cdot 20.19kg}

Next Step Prepare to Evaluate

∴

H sd = \frac{12.09 \cdot (0.002 + 0.1)}{2 \cdot 20.19}

Next Step Evaluate

∴

H sd = 0.0305393759286776m

LAST Step Rounding Answer

∴

H sd = 0.0305m

Height of Drop given Allowable Load for Steam Hammer Driven Piles Formula Elements

Variables

Height of Drop for Steam Hammer

Height of Drop for Steam Hammer is the vertical distance over which a steam drop hammer falls to compact soil or other materials in field compaction tests.

Symbol: H_sd

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Height of Drop for Steam Hammer

Allowable Pile Load

Allowable Pile Load is the maximum load that a pile can safely support without experiencing unacceptable levels of settlement or failure.

Symbol: P_a

Measurement: WeightUnit: kg

Note: Value should be greater than 0.

Formulas to find Allowable Pile Load

Penetration per Blow

Penetration per Blow is the measure of penetration of pile on each blow of hammer.

Symbol: p

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Penetration per Blow

Hammer Weight

Hammer Weight is the weight of the hammer used in dynamic pile driving.

Symbol: W_h

Measurement: WeightUnit: kg

Note: Value should be greater than 0.

Formulas to find Hammer Weight

Other formulas in Allowable Load on Piles category

Go Allowable Load for Drop Hammer Driven Piles

P a = \frac{2 \cdot W h \cdot H d}{p + 1}

Go Weight of Hammer given Allowable Load for Steam Hammer Driven Piles

W s = \frac{P a \cdot (p + 0.1)}{2 \cdot H d}

Go Weight of Hammer given Allowable Load for Drop Hammer Driven Piles

W h = \frac{P a \cdot (p + 1)}{2 \cdot H d}

Go Height of Drop given Allowable Load for Drop Hammer Driven Piles

H d = \frac{P a \cdot (p + 1)}{2 \cdot W h}

How to Evaluate Height of Drop given Allowable Load for Steam Hammer Driven Piles?

Height of Drop given Allowable Load for Steam Hammer Driven Piles evaluator uses Height of Drop for Steam Hammer = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Hammer Weight) to evaluate the Height of Drop for Steam Hammer, The Height of Drop given Allowable Load for Steam Hammer Driven Piles formula is defined as vertical distance through which a drop hammer is allowed to fall freely before striking the pile, considering allowable load for steam hammer driven piles. Height of Drop for Steam Hammer is denoted by H_sd symbol.

How to evaluate Height of Drop given Allowable Load for Steam Hammer Driven Piles using this online evaluator? To use this online evaluator for Height of Drop given Allowable Load for Steam Hammer Driven Piles, enter Allowable Pile Load (P_a), Penetration per Blow (p) & Hammer Weight (W_h) and hit the calculate button.

FAQs on Height of Drop given Allowable Load for Steam Hammer Driven Piles

What is the formula to find Height of Drop given Allowable Load for Steam Hammer Driven Piles?

The formula of Height of Drop given Allowable Load for Steam Hammer Driven Piles is expressed as Height of Drop for Steam Hammer = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Hammer Weight). Here is an example- 0.030539 = (12.09*(0.002+0.1))/(2*20.19).

How to calculate Height of Drop given Allowable Load for Steam Hammer Driven Piles?

With Allowable Pile Load (P_a), Penetration per Blow (p) & Hammer Weight (W_h) we can find Height of Drop given Allowable Load for Steam Hammer Driven Piles using the formula - Height of Drop for Steam Hammer = (Allowable Pile Load*(Penetration per Blow+0.1))/(2*Hammer Weight).

Can the Height of Drop given Allowable Load for Steam Hammer Driven Piles be negative?

No, the Height of Drop given Allowable Load for Steam Hammer Driven Piles, measured in Length cannot be negative.

Which unit is used to measure Height of Drop given Allowable Load for Steam Hammer Driven Piles?

Height of Drop given Allowable Load for Steam Hammer Driven Piles is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Height of Drop given Allowable Load for Steam Hammer Driven Piles can be measured.

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Height of Drop given Allowable Load for Steam Hammer Driven Piles Formula

Height of Drop given Allowable Load for Steam Hammer Driven Piles Example

Height of Drop given Allowable Load for Steam Hammer Driven Piles Solution

Height of Drop given Allowable Load for Steam Hammer Driven Piles Formula Elements

Other formulas in Allowable Load on Piles category

How to Evaluate Height of Drop given Allowable Load for Steam Hammer Driven Piles?

FAQs on Height of Drop given Allowable Load for Steam Hammer Driven Piles

Variable Name