When photons of wavelength λ1 are incident on an isolated sphere suspended by an insulated thread, the corresponding stopping potential is found to be V. When photons of wavelength λ2 are used, the corresponding stopping potential was thrice the above value. If light of wavelength λ3 is used, calculate the stopping potential for this case.
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When photons of wavelength λ1 are incident on an isolated sphere suspended by an insulated thread, the corresponding stopping potential is found to be V. When photons of wavelength λ2 are used, the corresponding stopping potential was thrice the above value. If light of wavelength λ3 is used, calculate the stopping potential for this case.
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Find the differential equations of y=ae^(x) +be^(2x) +ce^(-3x)(m-3+4n)\cdot (-8) =(m−3+4n)⋅(−8)The Boolean expression f (A,B,C)= A[B+C(AB+AC)') can be simplified to
Question: Find A Differential Equation Corresponding To Each Relation, Withindicated Arbitrary Constants. Verify In Each Case That Thedifferential Equation Has The Relation As Its General Solution.(i) Y = Ae-3x + Be2x +Ce4x : A, B, C
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Find a differential equation corresponding to each relation, withindicated arbitrary constants. Verify in each case that thedifferential equation has the relation as its general solution.
(i) y = Ae-3x + Be2x +Ce4x : A, B, C