Change in Boiling Point of Solvent Solution

STEP 0: Pre-Calculation Summary
Formula Used
Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute
Δbp = Kb*m
This formula uses 3 Variables
Variables Used
Change in Boiling Point of Solvent - (Measured in Kelvin) - Change in Boiling Point of Solvent is the change in the boiling point of the solvent after adding a solute to it.
Molal Boiling Point Elevation Constant - Molal Boiling Point Elevation Constant is the constant of elevation in boiling point of solute and has a specific value depending on the identity of the solvent.
Molal Concentration of Solute - (Measured in Mole per Liter) - Molal Concentration of Solute is the molal concentration of the solute which is added to the solvent.
STEP 1: Convert Input(s) to Base Unit
Molal Boiling Point Elevation Constant: 4.8 --> No Conversion Required
Molal Concentration of Solute: 2.5 Mole per Liter --> 2.5 Mole per Liter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Δbp = Kb*m --> 4.8*2.5
Evaluating ... ...
Δbp = 12
STEP 3: Convert Result to Output's Unit
12 Kelvin --> No Conversion Required
FINAL ANSWER
12 Kelvin <-- Change in Boiling Point of Solvent
(Calculation completed in 00.020 seconds)

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25 Basic Chemistry Calculators

Average Atomic Mass
Go Average Atomic Mass = (Ratio Term of Isotope A*Atomic Mass of Isotope A+Ratio Term of Isotope B*Atomic Mass of Isotope B)/(Ratio Term of Isotope A+Ratio Term of Isotope B)
Determination of Eqv. Mass of Metal using Chloride Formation Method given vol. of Cl at STP
Go Equivalent Mass of Metal = (Mass of Metal/Vol. of Chlorine reacted)*Vol. of Chlorine reacts with eqv. mass of metal
Determination of Equivalent Mass of Metal added using Metal Displacement Method
Go Equivalent Mass of Metal added = (Mass of Metal added/Mass of Metal displaced)*Equivalent Mass of Metal displaced
Determination of Eqv. Mass of Metal using H2 Displacement Method given vol. of H2 displaced at STP
Go Equivalent Mass of Metal = (Mass of Metal/Vol. of hydrogen displaced at STP)*Vol. of Hydrogen displaced at NTP
Determination of Equivalent Mass of Base using Neutralisation Method
Go Equivalent mass of bases = Weight of bases/(Vol. of acid required for neutralisation*Normality of acid used)
Determination of Equivalent Mass of Acid using Neutralization Method
Go Equivalent mass of acids = Weight of acid/(Vol. of base required for neutralisation*Normality of base used)
Determination of Equivalent Mass of Metal using Oxide formation Method given vol. of Oxygen at STP
Go Equivalent Mass of Metal = (Mass of Metal/Vol. of Oxygen displaced)*Vol. of oxygen combined at STP
Mole Fraction
Go Mole Fraction = (Number of Moles of Solute)/(Number of Moles of Solute+Number of Moles of Solvent)
Equivalent Mass of Metal using Hydrogen Displacement Method
Go Equivalent Mass of Metal = (Mass of Metal/Mass of Hydrogen Displaced)*Equivalent Mass of Hydrogen
Sensible Heat
Go Sensible Heat = 1.10*Rate of Flow of Air Entering Inside*(Outside Temperature-Inside Temperature)
Determination of Equivalent Mass of Metal using Chloride Formation Method
Go Equivalent Mass of Metal = (Mass of Metal/Mass of Chlorine reacted)*Equivalent Mass of Chlorine
Determination of Equivalent Mass of Metal using Oxide formation Method
Go Equivalent Mass of Metal = (Mass of Metal/Mass of Oxygen displaced)*Equivalent Mass of Oxygen
Partition Coefficient
Go Partition Coefficient = Concentration of Solute in Stationary Phase/Concentration of Solute in Mobile Phase
Change in Boiling Point of Solvent
Go Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute
Specific Heat Capacity
Go Specific Heat Capacity = Heat Energy/(Mass*Rise in Temperature)
Vapour Pressure
Go Vapour Pressure of Solution = Mole Fraction of Solvent in Solution*Vapour Pressure of Solvent
Relative Atomic Mass of Element
Go Relative Atomic Mass of an Element = Mass of an Atom/((1/12)*Mass of Carbon-12 atom)
Bond Order
Go Bond Order = (1/2)*(Number of Bonding Electrons-Number of Antibonding Electrons)
Molar Volume
Go Molar Volume = (Atomic Weight*Molar Mass)/Density
Boiling Point
Go Boiling Point = Boiling Point of Solvent*Change in Boiling Point of Solvent
Relative Molecular Mass of Compound
Go Relative Molecular Mass = Mass of Molecule/(1/12*Mass of Carbon-12 atom)
Molecular Formula
Go Molecular Formula = Molar Mass/Mass of Empirical Formulas
Percent by Weight
Go Percent By Weight = Gram of Solute/100 g of Solution
Theoretical Yield
Go Theoretical Yield = (Actual Yield/Percent Yield)*100
Determination of Atomic Mass using Dulong and Pettit's method
Go Atomic Mass = 6.4/Specific Heat of Element

9 Important Formulas of Basic Chemistry Calculators

Mole Fraction
Go Mole Fraction = (Number of Moles of Solute)/(Number of Moles of Solute+Number of Moles of Solvent)
Partition Coefficient
Go Partition Coefficient = Concentration of Solute in Stationary Phase/Concentration of Solute in Mobile Phase
Change in Boiling Point of Solvent
Go Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute
Specific Heat Capacity
Go Specific Heat Capacity = Heat Energy/(Mass*Rise in Temperature)
Bond Order
Go Bond Order = (1/2)*(Number of Bonding Electrons-Number of Antibonding Electrons)
Molar Volume
Go Molar Volume = (Atomic Weight*Molar Mass)/Density
Boiling Point
Go Boiling Point = Boiling Point of Solvent*Change in Boiling Point of Solvent
Molecular Formula
Go Molecular Formula = Molar Mass/Mass of Empirical Formulas
Percent by Weight
Go Percent By Weight = Gram of Solute/100 g of Solution

Change in Boiling Point of Solvent Formula

Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute
Δbp = Kb*m

How to Calculate Change in Boiling Point of Solvent?

Change in Boiling Point of Solvent calculator uses Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute to calculate the Change in Boiling Point of Solvent, Change in Boiling Point of Solvent is the change in the boiling point of the solvent after adding a solute to it. Change in Boiling Point of Solvent is denoted by Δbp symbol.

How to calculate Change in Boiling Point of Solvent using this online calculator? To use this online calculator for Change in Boiling Point of Solvent, enter Molal Boiling Point Elevation Constant (Kb) & Molal Concentration of Solute (m) and hit the calculate button. Here is how the Change in Boiling Point of Solvent calculation can be explained with given input values -> 12 = 4.8*2500.

FAQ

What is Change in Boiling Point of Solvent?
Change in Boiling Point of Solvent is the change in the boiling point of the solvent after adding a solute to it and is represented as Δbp = Kb*m or Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute. Molal Boiling Point Elevation Constant is the constant of elevation in boiling point of solute and has a specific value depending on the identity of the solvent & Molal Concentration of Solute is the molal concentration of the solute which is added to the solvent.
How to calculate Change in Boiling Point of Solvent?
Change in Boiling Point of Solvent is the change in the boiling point of the solvent after adding a solute to it is calculated using Change in Boiling Point of Solvent = Molal Boiling Point Elevation Constant*Molal Concentration of Solute. To calculate Change in Boiling Point of Solvent, you need Molal Boiling Point Elevation Constant (Kb) & Molal Concentration of Solute (m). With our tool, you need to enter the respective value for Molal Boiling Point Elevation Constant & Molal Concentration of Solute 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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