Q-value of Nuclear Reaction Solution

STEP 0: Pre-Calculation Summary
Formula Used
Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6
Qvalue = (MP-MR)*931.5*10^6
This formula uses 3 Variables
Variables Used
Q Value of Nuclear Reaction - (Measured in Joule) - Q Value of Nuclear Reaction is the amount of energy absorbed or released during the nuclear reaction.
Mass of Product - (Measured in Kilogram) - Mass of product is the mass of the product in the nuclear reaction.
Mass of Reactant - (Measured in Kilogram) - Mass of Reactant is the total mass of the reactant which takes part in a nuclear reaction.
STEP 1: Convert Input(s) to Base Unit
Mass of Product: 56 Atomic Mass Unit --> 9.29902512104254E-26 Kilogram (Check conversion here)
Mass of Reactant: 62 Atomic Mass Unit --> 1.02953492411542E-25 Kilogram (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Qvalue = (MP-MR)*931.5*10^6 --> (9.29902512104254E-26-1.02953492411542E-25)*931.5*10^6
Evaluating ... ...
Qvalue = -9.28075917884011E-18
STEP 3: Convert Result to Output's Unit
-9.28075917884011E-18 Joule -->-57.9259174690736 Electron-Volt (Check conversion here)
FINAL ANSWER
-57.9259174690736 -57.925917 Electron-Volt <-- Q Value of Nuclear Reaction
(Calculation completed in 00.020 seconds)

Credits

Created by Pracheta Trivedi
National Institute Of Technology Warangal (NITW), Warangal
Pracheta Trivedi has created this Calculator and 25+ more calculators!
Verified by Torsha_Paul
University of Calcutta (CU), Kolkata
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25 Nuclear Chemistry Calculators

Direct Isotope Dilution Analysis (DIDA)
Go Unknown Amount of Compound present in Sample = Labelled Compound present in Sample*((Specific Activity of Pure Labelled Compound-Specific Activity of Mixed Compound)/Specific Activity of Mixed Compound)
Inverse Isotope Dilution Analysis (IIDA)
Go Unknown Amount of Active Compound = Amount of Inactive Isotope of Same Compound*(Specific Activity of Mixed Compound/(Specific Activity of Pure Labelled Compound-Specific Activity of Mixed Compound))
Sub-Stoichiometric Isotope Dilution Analysis (SSIA)
Go Amount of Compound in Unknown Solution = Amount of Compound in Stock Solution*((Specific Activity of Stock Solution-Specific Activity of Mixed Solution)/Specific Activity of Mixed Solution)
Age of Minerals and Rocks
Go Age of Mineral and Rocks = Total Number of Radiogenic Lead Atom/((1.54*(10^(-10))*Number of U-238 present in Mineral/Rock Sample)+(4.99*(10^(-11))*Number of Th-232 present in Mineral/Rock Sample))
Age of Plant or Animal
Go Age of Plant or Animal = (2.303/Disintegration Constant of 14C)*(log10(Activity of 14C in Original Animals or Plants/Activity of 14C in Old Wood or Animal Fossil))
Age of Minerals and Rocks containing Pure Thorium and Pb-208
Go Age of Mineral and Rocks for Pure Th/Pb-208 system = 46.2*(10^9)*log10(1+(1.116*Number of Pb-208 present in Mineral/Rock Sample)/Number of Th-232 present in Mineral/Rock Sample)
Age of Minerals and Rocks containing Pure Uranium and Pb-206
Go Age of Mineral and Rocks for Pure U/Pb-206 system = 15.15*(10^9)*log10(1+(1.158*Number of Pb-206 present in Mineral/Rock Sample)/Number of U-238 present in Mineral/Rock Sample)
Determination of Age of Minerals and Rocks using Rubidium-87/ Strontium Method
Go Time taken = 1/Decay Constant for Rb-87 to Sr-87*((Ratio of Sr-87/Sr-86 at Time t-Initial Ratio of Sr-87/Sr-86)/Ratio of Rb-87/Sr-86 at Time t)
Threshold Kinetic Energy of Nuclear Reaction
Go Threshold Kinetic Energy of Nuclear Reaction = -(1+(Mass of Projectile Nuclei/Mass of Target Nuclei))*Reaction Energy
Neutron Activation Analysis (NAA)
Go Weight of Particular Element = Atomic Weight of Element/[Avaga-no]*Specific Activity at Time t
Amount of Substance left after n Half Lives
Go Amount of Substance Left After n Half Lives = ((1/2)^Number of Half Lives)*Initial Concentration of Radioactive Substance
Packing Fraction (In Isotopic mass)
Go Packing Fraction in Isotopic mass = ((Atomic Isotopic Mass-Mass Number)*(10^4))/Mass Number
Specific Activity using Half Life
Go Specific Activity = (0.693*[Avaga-no])/(Radioactive Half Life*Atomic Weight of Nuclide)
Specific Activity of Isotope
Go Specific Activity = (Activity* [Avaga-no])/Atomic Weight of Nuclide
Q-value of Nuclear Reaction
Go Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6
Amount of Substance Left after Three Half Lives
Go Amount of Substance Left After Three Half Lives = Initial Concentration of Radioactive Substance/8
Amount of Substance Left after Two Half Lives
Go Amount of Substance Left After Two Half Lives = (Initial Concentration of Radioactive Substance/4)
Molar Activity using Half Life
Go Molar Activity = (0.693*[Avaga-no])/(Radioactive Half Life)
Binding Energy Per Nucleon
Go Binding Energy per Nucleon = (Mass Defect*931.5)/Mass Number
Number of Half Lives
Go Number of Half Lives = Total Time/Half Life
Packing Fraction
Go Packing Fraction = Mass Defect/Mass Number
Molar Activity of Compound
Go Molar Activity = Activity*[Avaga-no]
Radius of Nuclei
Go Radius of Nuclei = (1.2*(10^-15))*((Mass Number)^(1/3))
Radioactive Half Life
Go Radioactive Half Life = 0.693*Mean Life Time
Mean Life Time
Go Mean Life Time = 1.446*Radioactive Half Life

Q-value of Nuclear Reaction Formula

Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6
Qvalue = (MP-MR)*931.5*10^6

What is Q-Value of Nuclear Reaction?

Q value for a reaction is the amount of energy absorbed or released during the nuclear reaction. The value relates to the enthalpy of a chemical reaction or the energy of radioactive decay products. It can be determined from the masses of reactants and products.

How to Calculate Q-value of Nuclear Reaction?

Q-value of Nuclear Reaction calculator uses Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6 to calculate the Q Value of Nuclear Reaction, Q-value of nuclear reaction is the amount of energy absorbed or released during the nuclear reaction. The negative or positive sign in front indicating whether energy has been absorbed or released. Q Value of Nuclear Reaction is denoted by Qvalue symbol.

How to calculate Q-value of Nuclear Reaction using this online calculator? To use this online calculator for Q-value of Nuclear Reaction, enter Mass of Product (MP) & Mass of Reactant (MR) and hit the calculate button. Here is how the Q-value of Nuclear Reaction calculation can be explained with given input values -> -3.6E+20 = (9.29902512104254E-26-1.02953492411542E-25)*931.5*10^6.

FAQ

What is Q-value of Nuclear Reaction?
Q-value of nuclear reaction is the amount of energy absorbed or released during the nuclear reaction. The negative or positive sign in front indicating whether energy has been absorbed or released and is represented as Qvalue = (MP-MR)*931.5*10^6 or Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6. Mass of product is the mass of the product in the nuclear reaction & Mass of Reactant is the total mass of the reactant which takes part in a nuclear reaction.
How to calculate Q-value of Nuclear Reaction?
Q-value of nuclear reaction is the amount of energy absorbed or released during the nuclear reaction. The negative or positive sign in front indicating whether energy has been absorbed or released is calculated using Q Value of Nuclear Reaction = (Mass of Product-Mass of Reactant)*931.5*10^6. To calculate Q-value of Nuclear Reaction, you need Mass of Product (MP) & Mass of Reactant (MR). With our tool, you need to enter the respective value for Mass of Product & Mass of Reactant 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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