Total Energy before Collision Calculator

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✖Centrifugal Energy is the energy related to a particle moving on a circular path.ⓘ Centrifugal Energy [E_centrifugal]			+10% -10%
✖Interparticle Distance Vector is the mean distance vector between microscopic particles (usually atoms or molecules) in a macroscopic body.ⓘ Interparticle Distance Vector [R]			+10% -10%
✖Miss Distance is defined so that it is how near to one another the particles A and B approach, when there is no force acting between them.ⓘ Miss Distance [b]			+10% -10%

✖Total Energy Before Collision is the quantitative property that must be transferred to a body or physical system to perform collision.ⓘ Total Energy before Collision [E_T]

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Formula

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Total Energy before Collision

Formula

`"E"_{"T"} = "E"_{"centrifugal"}*("R"^2)/("b"^2)`

Example

`"338J"="8J"*(("26")^2)/(("4")^2)`

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Total Energy before Collision Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2)
E_T = E_centrifugal*(R^2)/(b^2)
This formula uses 4 Variables

Variables Used

Total Energy Before Collision - (Measured in Joule) - Total Energy Before Collision is the quantitative property that must be transferred to a body or physical system to perform collision.
Centrifugal Energy - (Measured in Joule) - Centrifugal Energy is the energy related to a particle moving on a circular path.
Interparticle Distance Vector - Interparticle Distance Vector is the mean distance vector between microscopic particles (usually atoms or molecules) in a macroscopic body.
Miss Distance - Miss Distance is defined so that it is how near to one another the particles A and B approach, when there is no force acting between them.

STEP 1: Convert Input(s) to Base Unit

Centrifugal Energy: 8 Joule --> 8 Joule No Conversion Required
Interparticle Distance Vector: 26 --> No Conversion Required
Miss Distance: 4 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

E_T = E_centrifugal*(R^2)/(b^2) --> 8*(26^2)/(4^2)

Evaluating ... ...

E_T = 338

STEP 3: Convert Result to Output's Unit

338 Joule --> No Conversion Required

FINAL ANSWER

338 Joule <-- Total Energy Before Collision

(Calculation completed in 00.004 seconds)

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Created by Soupayan banerjee

National University of Judicial Science (NUJS), Kolkata

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India

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< 19 Molecular Reaction Dynamics Calculators

Collision Cross Section in Ideal Gas

Go Collisional Cross Section = (Collision Frequency/Number Density for A Molecules*Number Density for B Molecules)*sqrt(pi*Reduced Mass of Reactants A and B/8*[BoltZ]*Temperature in terms of Molecular Dynamics)

Collision Frequency in Ideal Gas

Go Collision Frequency = Number Density for A Molecules*Number Density for B Molecules*Collisional Cross Section*sqrt((8*[BoltZ]*Time in terms of Ideal Gas/pi*Reduced Mass of Reactants A and B))

Reduced Mass of Reactants using Collision Frequency

Go Reduced Mass of Reactants A and B = ((Number Density for A Molecules*Number Density for B Molecules*Collisional Cross Section/Collision Frequency)^2)*(8*[BoltZ]*Temperature in terms of Molecular Dynamics/pi)

Number of Collisions per Second in Equal Size Particles

Go Number of Collisions per Second = ((8*[BoltZ]*Temperature in terms of Molecular Dynamics*Concentration of Equal Size Particle in Solution)/(3*Viscosity of Fluid in Quantum))

Concentration of Equal Size Particle in Solution using Collision Rate

Go Concentration of Equal Size Particle in Solution = (3*Viscosity of Fluid in Quantum*Number of Collisions per Second)/(8*[BoltZ]*Temperature in terms of Molecular Dynamics)

Temperature of Molecular Particle using Collision Rate

Go Temperature in terms of Molecular Dynamics = (3*Viscosity of Fluid in Quantum*Number of Collisions per Second)/(8*[BoltZ]*Concentration of Equal Size Particle in Solution)

Viscosity of Solution using Collision Rate

Go Viscosity of Fluid in Quantum = (8*[BoltZ]*Temperature in terms of Molecular Dynamics*Concentration of Equal Size Particle in Solution)/(3*Number of Collisions per Second)

Number Density for A Molecules using Collision Rate Constant

Go Number Density for A Molecules = Collision Frequency/(Velocity of Beam Molecules*Number Density for B Molecules*Cross Sectional Area for Quantum)

Cross Sectional Area using Rate of Molecular Collisions

Go Cross Sectional Area for Quantum = Collision Frequency/(Velocity of Beam Molecules*Number Density for B Molecules*Number Density for A Molecules)

Number of Bimolecular Collision per Unit Time per Unit Volume

Go Collision Frequency = Number Density for A Molecules*Number Density for B Molecules*Velocity of Beam Molecules*Cross Sectional Area for Quantum

Reduced Mass of Reactants A and B

Go Reduced Mass of Reactants A and B = (Mass of Reactant B*Mass of Reactant B)/(Mass of Reactant A+Mass of Reactant B)

Miss Distance between Particles in Collision

Go Miss Distance = sqrt(((Interparticle Distance Vector^2)*Centrifugal Energy)/Total Energy Before Collision)

Interparticle Distance Vector in Molecular Reaction Dynamics

Go Interparticle Distance Vector = sqrt(Total Energy Before Collision*(Miss Distance^2)/Centrifugal Energy)

Centrifugal Energy in Collision

Go Centrifugal Energy = Total Energy Before Collision*(Miss Distance^2)/(Interparticle Distance Vector^2)

Total Energy before Collision

Go Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2)

Vibrational Frequency given Boltzmann's Constant

Go Vibrational Frequency = ([BoltZ]*Temperature in terms of Molecular Dynamics)/[hP]

Collisional Cross Section

Go Collisional Cross Section = pi*((Radius of Molecule A*Radius of Molecule B)^2)

Largest Charge Seperation in Collision

Go Largest Charge Seperation = sqrt(Reaction Cross Section/pi)

Reaction Cross Section in Collision

Go Reaction Cross Section = pi*(Largest Charge Seperation^2)

Total Energy before Collision Formula

Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2)
E_T = E_centrifugal*(R^2)/(b^2)

What is Collision Theory?

Collision theory states that when suitable particles of the reactant hit each other with correct orientation, only a certain amount of collisions result in a perceptible or notable change; these successful changes are called successful collisions. The successful collisions must have enough energy, also known as activation energy, at the moment of impact to break the pre-existing bonds and form all new bonds.

How to Calculate Total Energy before Collision?

Total Energy before Collision calculator uses Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2) to calculate the Total Energy Before Collision, The Total Energy before Collision formula is defined as the total amount of energy which is present before collision in particle. Total Energy Before Collision is denoted by E_T symbol.

How to calculate Total Energy before Collision using this online calculator? To use this online calculator for Total Energy before Collision, enter Centrifugal Energy (E_centrifugal), Interparticle Distance Vector (R) & Miss Distance (b) and hit the calculate button. Here is how the Total Energy before Collision calculation can be explained with given input values -> 338 = 8*(26^2)/(4^2).

FAQ

What is Total Energy before Collision?

The Total Energy before Collision formula is defined as the total amount of energy which is present before collision in particle and is represented as E_T = E_centrifugal*(R^2)/(b^2) or Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2). Centrifugal Energy is the energy related to a particle moving on a circular path, Interparticle Distance Vector is the mean distance vector between microscopic particles (usually atoms or molecules) in a macroscopic body & Miss Distance is defined so that it is how near to one another the particles A and B approach, when there is no force acting between them.

How to calculate Total Energy before Collision?

The Total Energy before Collision formula is defined as the total amount of energy which is present before collision in particle is calculated using Total Energy Before Collision = Centrifugal Energy*(Interparticle Distance Vector^2)/(Miss Distance^2). To calculate Total Energy before Collision, you need Centrifugal Energy (E_centrifugal), Interparticle Distance Vector (R) & Miss Distance (b). With our tool, you need to enter the respective value for Centrifugal Energy, Interparticle Distance Vector & Miss Distance 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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