Question 10
Now substituting these values in (i), we g..
Now substituting these values in (i), we g..Formation of a Differential Equation
Consider the family of lines represented by y = mx .(1)Consider the family of lines represented by y = mx .(1) This equation represents infinite number of lines passing through the origin. Differentiating (1), we get Substituting this value of m, we get the differentia..
Consider the family of lines represented by y = mx .(1)Consider the family of lines represented by y = mx .(1) This equation represents infinite number of lines passing through the origin. Differentiating (1), we get Substituting this value of m, we get the differentia..Social Implications
>Imaginary fear, imaginary anxieties and unrealistic expectations as well as host of strong misconceptions may ultimately end up with personalities of negative / perverted thoughts. In extreme disillusions, tension, wrongful personality and maladjustments - a section of population may have to be ps..
Anomalous Behavior of Oxygen
Anomalous Behavior of Oxygen - Like all other first elements of the groups, oxygen also differs from its family members. The anomalous behavior of oxygen is due to its (i) small size (ii) high value of ionization energy and electronegativity (iii) absence of d-orbitals in the va..
Electropositive or metallic character
The electropositive character of an element is expressed in terms of the tendency of its atom to release electrons: All the alkali metals are strongly electropositive or metallic in character, since they have low ionization energies and their atoms readily lose the valence electron. As the ion..
The electropositive character of an element is expressed in terms of the tendency of its atom to release electrons: All the alkali metals are strongly electropositive or metallic in character, since they have low ionization energies and their atoms readily lose the valence electron. As the ion..Geometrical Interpretation of indefinite integral
Let f(x) = 3x 2 Note that for different values of C we get different integrals. But all these integrals are very similar geometrically. The function y = x 3 + C represent a family of integrals. The above figure shows different curves of the integral function y = x 3 + C. These c..
Let f(x) = 3x 2 Note that for different values of C we get different integrals. But all these integrals are very similar geometrically. The function y = x 3 + C represent a family of integrals. The above figure shows different curves of the integral function y = x 3 + C. These c..See what our Users say :
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