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21.

The output  F of the logic  circuit given below

1972021663_s2.PNG


A) $X+\overline{Y}.Z$

B) (Y+Z).X

C) $(\overline{Y}+Z)+X$

D) $X+\overline{Y}+Z$



22.

An active nucleus decays to $(\frac{1}{3})$ rd in 20 h . tHe fraction of original activity remaining after 80 h is 


A) $\frac{1}{16}$

B) $\frac{1}{81}$

C) $\frac{1}{36}$

D) $\frac{1}{54}$



23.

A particle of mass m is attached to four springs with spring constant k , k,2k and 2k as shown in the figure. Four springs are attached to the four corners of a square and a particle is placed  at the centre . If the particle is pushed slightly  towards  any sides of the square and released, the period of oscillation will be 

1972021692_s1.PNG


A) $2\pi\sqrt{\frac{m}{3k}}$

B) $2\pi\sqrt{\frac{m}{3\sqrt{2k}}}$

C) $2\pi\sqrt{\frac{m}{6k}}$

D) $2\pi\sqrt{\frac{m}{2k}}$



24.

A solid sphere of radius R makes a perfect rolling down on a plane which is inclined to the horizontal axis at an angle $\theta$. If the radius  of gyration is k , then its  acceleration is 


A) $\frac{g \sin \theta}{\left(1+\frac{k^{2}}{R^{2}}\right)}$

B) $\frac{g \sin \theta}{(R^{2}+k^{2})}$

C) $\frac{g \sin \theta}{2(R^{2}+k^{2})}$

D) $\frac{g \sin \theta}{2\left(1+\frac{k^{2}}{R^{2}}\right)}$



25.

 Two objects are located at a height 10 m above the ground. At some point of time, the objects are thrown with initial velocity $2\sqrt{2}$ m/s at an angle $45^{0}$ and $135^{0}$ with the positive X-axis, respectively. assuming  g=10m/s2 , the velocity vectors will be perpendicular to each other at a time is equal to 


A) 0.2 s

B) 0.4 s

C) 0.6 s

D) 0.8 s



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