266575 There are 100 divisions on the circular scale of a screw gauge of pitch 1 mm . With no measuring quantity in between the jaws, thezero of the circular scale lies 5 divisions below the reference line. The diameter of a wire is then measured using this screw gauge. It is found that 4 linear scale divisions are dearly visible while 60 divisions on circular scale coincide with the reference line. The diameter of the wire is:

266576 The angle between vector \(\vec{Q}\) and the resultant of \((2 \overrightarrow{\mathrm{Q}}+2 \vec{P})\) and \((2 \overrightarrow{\mathrm{Q}}-2 \overrightarrow{\mathrm{P}})\) is:

266577 The equivalent resistance of the circuit across \(A B\) is given by [diodes are in reverse biased:]

266578 What is the logic gate if input of output wave form shown in figure. A and \(B\) are input and \(y\) is output

266575 There are 100 divisions on the circular scale of a screw gauge of pitch 1 mm . With no measuring quantity in between the jaws, thezero of the circular scale lies 5 divisions below the reference line. The diameter of a wire is then measured using this screw gauge. It is found that 4 linear scale divisions are dearly visible while 60 divisions on circular scale coincide with the reference line. The diameter of the wire is:

266576 The angle between vector \(\vec{Q}\) and the resultant of \((2 \overrightarrow{\mathrm{Q}}+2 \vec{P})\) and \((2 \overrightarrow{\mathrm{Q}}-2 \overrightarrow{\mathrm{P}})\) is:

266577 The equivalent resistance of the circuit across \(A B\) is given by [diodes are in reverse biased:]

266578 What is the logic gate if input of output wave form shown in figure. A and \(B\) are input and \(y\) is output

266575 There are 100 divisions on the circular scale of a screw gauge of pitch 1 mm . With no measuring quantity in between the jaws, thezero of the circular scale lies 5 divisions below the reference line. The diameter of a wire is then measured using this screw gauge. It is found that 4 linear scale divisions are dearly visible while 60 divisions on circular scale coincide with the reference line. The diameter of the wire is:

266576 The angle between vector \(\vec{Q}\) and the resultant of \((2 \overrightarrow{\mathrm{Q}}+2 \vec{P})\) and \((2 \overrightarrow{\mathrm{Q}}-2 \overrightarrow{\mathrm{P}})\) is:

266577 The equivalent resistance of the circuit across \(A B\) is given by [diodes are in reverse biased:]

266578 What is the logic gate if input of output wave form shown in figure. A and \(B\) are input and \(y\) is output

266575 There are 100 divisions on the circular scale of a screw gauge of pitch 1 mm . With no measuring quantity in between the jaws, thezero of the circular scale lies 5 divisions below the reference line. The diameter of a wire is then measured using this screw gauge. It is found that 4 linear scale divisions are dearly visible while 60 divisions on circular scale coincide with the reference line. The diameter of the wire is:

266576 The angle between vector \(\vec{Q}\) and the resultant of \((2 \overrightarrow{\mathrm{Q}}+2 \vec{P})\) and \((2 \overrightarrow{\mathrm{Q}}-2 \overrightarrow{\mathrm{P}})\) is:

266577 The equivalent resistance of the circuit across \(A B\) is given by [diodes are in reverse biased:]

266578 What is the logic gate if input of output wave form shown in figure. A and \(B\) are input and \(y\) is output