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Wavelength of Vibrations caused by Blasting Calculator

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Vibration Control in Blasting
Bearing Capacity for Strip Footing for C-Φ Soils
Bearing Capacity of Cohesive Soil
Bearing Capacity of Non-cohesive Soil
Bearing Capacity of Soils
Bearing Capacity of Soils: Meyerhof's Analysis
Foundation Stability Analysis
Atterberg Limits
Bearing Capacity of Soil: Terzaghi's Analysis
Compaction of Soil
Earth Moving
Lateral Pressure for Cohesive and Non Cohesive Soil
Minimum Depth of Foundation by Rankine's Analysis
Normal Stress Component
Passive Earth Pressure Theory
Pile Foundations
Porosity of soil sample
Relationships of weights and volumes in soils
Scraper Production
Seepage Analysis
Shaft Settlement and Resistance
Shear Stress Component
Slope Stability Analysis using Bishops Method
Slope Stability Analysis using Culman's Method
Soil and Earthwork
Soil Exploration
Soil Origin and Its Properties
Specific Gravity of Soil
Stability Analysis of Infinite Slopes
Stability Analysis of Infinite Slopes in Prism
Stability Analysis Of Submerged Slopes
Stability of Slopes In Earthen Dams
Terzaghi's Analysis: Shear Failure Theories
Unit Weight of Water
Vertical Pressure in Soils
Void Ratio of Soil Sample
Water Content of Soil and Related Formulas
Parameters of Vibration Control in Blasting
Velocity of Vibration is defined as rate of change in displacement.Velocity of Vibration [V]
+10%
-10%
Frequency of Vibration is the number of times something happens in a particular period.Frequency of Vibration [f]
+10%
-10%
Wavelength of Vibration is the length of wave on which a radio station sends out its telecast.Wavelength of Vibrations caused by Blasting [λv]
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Formula

Wavelength of Vibrations caused by Blasting

Formula
`"λ"_{"v"} = ("V"/"f")`

Example
`"2.498751m"=("5m/s"/"2.001Hz")`

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Wavelength of Vibrations caused by Blasting Solution

STEP 0: Pre-Calculation Summary
Formula Used
Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration)
λv = (V/f)
This formula uses 3 Variables
Variables Used
Wavelength of Vibration - (Measured in Meter) - Wavelength of Vibration is the length of wave on which a radio station sends out its telecast.
Velocity of Vibration - (Measured in Meter per Second) - Velocity of Vibration is defined as rate of change in displacement.
Frequency of Vibration - (Measured in Hertz) - Frequency of Vibration is the number of times something happens in a particular period.
STEP 1: Convert Input(s) to Base Unit
Velocity of Vibration: 5 Meter per Second --> 5 Meter per Second No Conversion Required
Frequency of Vibration: 2.001 Hertz --> 2.001 Hertz No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
λv = (V/f) --> (5/2.001)
Evaluating ... ...
λv = 2.49875062468766
STEP 3: Convert Result to Output's Unit
2.49875062468766 Meter --> No Conversion Required
FINAL ANSWER
2.49875062468766 2.498751 Meter <-- Wavelength of Vibration
(Calculation completed in 00.004 seconds)
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Home » Engineering » Civil » Geotechnical Engineering » Vibration Control in Blasting » Wavelength of Vibrations caused by Blasting

Credits

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Created by Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has created this Calculator and 2200+ more calculators!
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Verified by Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
Ishita Goyal has verified this Calculator and 2600+ more calculators!

22 Vibration Control in Blasting Calculators

Diameter of Drill Bit using Burden Suggested in Langefors' Formula
​ Go Diameter of Drill Bit = (Burden in Langefors' Formula*33)*sqrt((Rock Constant*Degree of Fraction*Ratio of Spacing to Burden)/(Degree of Packing*Weight Strength of Explosive))
Weight Strength of Explosive using Burden Suggested in Langefors' Formula
​ Go Weight Strength of Explosive = (33*Burden in Langefors' Formula/Diameter of Drill Bit)^2*((Ratio of Spacing to Burden*Rock Constant*Degree of Fraction)/Degree of Packing)
Maximum Weight of Explosives given Scaled Distance for Vibration Control
​ Go Maximum Weight of Explosives per Delay = ((Distance from Explosion to Exposure)^(-Constant of Scaled Distance β)*(Constant of Scaled Distance/Scaled Distance))^(-2/Constant of Scaled Distance β)
Distance to Exposure given Scaled Distance for Vibration Control
​ Go Distance from Explosion to Exposure = sqrt(Maximum Weight of Explosives per Delay)*(Scaled Distance/Constant of Scaled Distance)^(-1/Constant of Scaled Distance β)
Scaled Distance for Vibration Control
​ Go Scaled Distance = Constant of Scaled Distance*(Distance from Explosion to Exposure/sqrt(Maximum Weight of Explosives per Delay))^(-Constant of Scaled Distance β)
Distance of Particle Two from Site of Explosion given Velocity
​ Go Distance of Particle 2 from Explosion = Distance of Particle 1 from Explosion*(Velocity of Particle with Mass m1/Velocity of Particle with Mass m2)^(2/3)
Velocity of Particle One at Distance from Explosion
​ Go Velocity of Particle with Mass m1 = Velocity of Particle with Mass m2*(Distance of Particle 2 from Explosion/Distance of Particle 1 from Explosion)^(1.5)
Velocity of Particle Two at distance from Explosion
​ Go Velocity of Particle with Mass m2 = Velocity of Particle with Mass m1*(Distance of Particle 1 from Explosion/Distance of Particle 2 from Explosion)^(1.5)
Distance of Particle One from Site of Explosion
​ Go Distance of Particle 1 from Explosion = Distance of Particle 2 from Explosion*(Velocity of Particle with Mass m2/Velocity of Particle with Mass m1)^(2/3)
Diameter of Explosive using Burden Suggested in Konya Formula
​ Go Diameter of Explosive = (Burden/3.15)*(Specific Gravity of Rock/Specific Gravity of Explosive)^(1/3)
Specific Gravity of Explosive using Burden Suggested in Konya Formula
​ Go Specific Gravity of Explosive = Specific Gravity of Rock*(Burden/(3.15*Diameter of Explosive))^3
Specific Gravity of Rock using Burden Suggested in Konya Formula
​ Go Specific Gravity of Rock = Specific Gravity of Explosive*((3.15*Diameter of Explosive)/Burden)^3
Acceleration of Particles disturbed by Vibrations
​ Go Acceleration of Particles = (4*(pi*Frequency of Vibration)^2*Amplitude of Vibration)
Velocity of Particles disturbed by Vibrations
​ Go Velocity of Particle = (2*pi*Frequency of Vibration*Amplitude of Vibration)
Distance from Blast Hole to Nearest Perpendicular Free Face or Burden
​ Go Burden = sqrt(Diameter of Borehole*Length of Borehole)
Spacing for Multiple Simultaneous Blasting
​ Go Blasting Space = sqrt(Burden*Length of Borehole)
Wavelength of Vibrations caused by Blasting
​ Go Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration)
Velocity of Vibrations caused by Blasting
​ Go Velocity of Vibration = (Wavelength of Vibration*Frequency of Vibration)
Stemming at Top of Borehole to Prevent Explosive Gases from Escaping
​ Go Stemming at Top of Borehole = (0.7*Burden)+(Overburden/2)
Overburden given Stemming at Top of Borehole
​ Go Overburden = 2*(Stemming at Top of Borehole-(0.7*Burden))
Sound Pressure Level in Decibels
​ Go Sound Pressure Level = (Overpressure/(6.95*10^(-28)))^0.084
Diameter of Borehole using Minimum Length of Borehole
​ Go Diameter of Borehole = (Length of Borehole/2)

Wavelength of Vibrations caused by Blasting Formula

Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration)
λv = (V/f)

What is Wavelength?

Wavelength can be defined as the distance between two successive crests or troughs of a wave. It is measured in the direction of the wave. Wavelength is inversely proportional to frequency.This means the longer the wavelength, lower the frequency.

How to Calculate Wavelength of Vibrations caused by Blasting?

Wavelength of Vibrations caused by Blasting calculator uses Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration) to calculate the Wavelength of Vibration, The Wavelength of Vibrations caused by Blasting is defined as the wavelength of vibration when velocity and frequency is known. Wavelength of Vibration is denoted by λv symbol.

How to calculate Wavelength of Vibrations caused by Blasting using this online calculator? To use this online calculator for Wavelength of Vibrations caused by Blasting, enter Velocity of Vibration (V) & Frequency of Vibration (f) and hit the calculate button. Here is how the Wavelength of Vibrations caused by Blasting calculation can be explained with given input values -> 2.498751 = (5/2.001).

FAQ

What is Wavelength of Vibrations caused by Blasting?
The Wavelength of Vibrations caused by Blasting is defined as the wavelength of vibration when velocity and frequency is known and is represented as λv = (V/f) or Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration). Velocity of Vibration is defined as rate of change in displacement & Frequency of Vibration is the number of times something happens in a particular period.
How to calculate Wavelength of Vibrations caused by Blasting?
The Wavelength of Vibrations caused by Blasting is defined as the wavelength of vibration when velocity and frequency is known is calculated using Wavelength of Vibration = (Velocity of Vibration/Frequency of Vibration). To calculate Wavelength of Vibrations caused by Blasting, you need Velocity of Vibration (V) & Frequency of Vibration (f). With our tool, you need to enter the respective value for Velocity of Vibration & Frequency of Vibration 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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