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In a system A(s)⇌2B(g)+3C(g). If the concentration of C at equilibrium is increased by a factor 2, it will cause the equilibrium concentration of B to change to:
07
Dec
In a system A(s)⇌2B(g)+3C(g). If the concentration of C at equilibrium is increased by a factor 2, it will cause the equilibrium concentration of B to change to: In a system A(s)⇌2B(g)+3C(g). If the concentration of C at equilibrium is increased by a factor 2 it will cause the equilibrium concentration of B to change [...]
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Tags: In a system A(s)⇌2B(g)+3C(g). If the concentration of C at equilibrium is increased by a factor 2 , it will cause the equilibrium concentration of B to change to: ,
STATEMENT-1: The kinetic energy of photo-electrons increases with increase in frequency of incident light were v>vo. STATEMENT-2: Whenever intensity of light is increased the number of photo-electron ejected always increases.
07
Dec
STATEMENT-1: The kinetic energy of photo-electrons increases with increase in frequency of incident light were v>vo. STATEMENT-2: Whenever intensity of light is increased the number of photo-electron ejected always increases. because Many elements have non-integral atomic masses December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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The equilibrium constant K, for the following reaction at 842°C is 7.90 x 10^-3. What is Kp, at same temperature?
07
Dec
The equilibrium constant K, for the following reaction at 842°C is 7.90 x 10^-3. What is Kp, at same temperature? at same temperature? for the following reaction at 842°C is 7.90 x 10^-3. What is Kp The equilibrium constant K December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: at same temperature? , for the following reaction at 842°C is 7.90 x 10^-3. What is Kp , The equilibrium constant K ,
A light source of wavelength λ illuminates a metal and ejects photoelectron with (KE)max=1eV. Another light source of wave length λ/3, ejects photoelectrons from same metal with (KE)max=4eV. Find the value of work function (eV) of metal.
07
Dec
A light source of wavelength λ illuminates a metal and ejects photoelectron with (KE)max=1eV. Another light source of wave length λ/3, ejects photoelectrons from same metal with (KE)max=4eV. Find the value of work function (eV) of metal. A light source of wavelength λ illuminates a metal and ejects photoelectron with (KE)max=1eV. Another light source of [...]
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Tags: A light source of wavelength λ illuminates a metal and ejects photoelectron with (KE)max=1eV. Another light source of wave length λ/3 , ejects photoelectrons from same metal with (KE)max=4eV. Find the value of work function (eV) of metal. ,
Electromagnetic radiation having λ=310 A ˙ is subjected to a metal sheet having work function = 12.8 eV. What will be the velocity of photo electrons having maximum kinetic energy?
07
Dec
Electromagnetic radiation having λ=310 A ˙ is subjected to a metal sheet having work function = 12.8 eV. What will be the velocity of photo electrons having maximum kinetic energy? Electromagnetic radiation having λ=310 A ˙ is subjected to a metal sheet having work function = 12.8 eV. What will be the velocity of photo [...]
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Tags: Electromagnetic radiation having λ=310 A ˙ is subjected to a metal sheet having work function = 12.8 eV. What will be the velocity of photo electrons having maximum kinetic energy? ,
If λ0 and λ be the threshold wavelength and wavelength of incident light, the velocity of photoelectron ejected from the metal surface is:
07
Dec
If λ0 and λ be the threshold wavelength and wavelength of incident light, the velocity of photoelectron ejected from the metal surface is: If λ0 and λ be the threshold wavelength and wavelength of incident light the velocity of photoelectron ejected from the metal surface is: December 7, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
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Tags: If λ0 and λ be the threshold wavelength and wavelength of incident light , the velocity of photoelectron ejected from the metal surface is: ,
According to Einstein’s photoelectric equation, the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is
07
Dec
According to Einstein’s photoelectric equation, the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is According to Einstein's photoelectric equation the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
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Tags: According to Einstein's photoelectric equation , the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is ,
Slope of V0 vs v curve is (where V0= Stopping potential, v=subjected frequency)
07
Dec
Slope of V0 vs v curve is (where V0= Stopping potential, v=subjected frequency) Slope of V0 vs v curve is (where V0= Stopping potential v=subjected frequency) December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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In photoelectric effect, the kinetic energy of the photoelectrons increases linearly with the
07
Dec
In photoelectric effect, the kinetic energy of the photoelectrons increases linearly with the In photoelectric effect the kinetic energy of the photoelectrons increases linearly with the December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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How do the energy gaps between successive electron energy levels in an atom vary from low to high n values?
07
Dec
How do the energy gaps between successive electron energy levels in an atom vary from low to high n values? How do the energy gaps between successive electron energy levels in an atom vary from low to high n values? December 7, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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