Content Curator | Updated On - May 28, 2024
BCECE 2017 Question paper (Set B) is available for download here. BCECE exam was successfully organized by Bihar Combined Entrance Competitive Examination Board on June 18, 2017. The question paper comprised a total of 150 questions divided into 3 sections.
BCECE 2017 Question Paper with Answer Key PDF (Set B)
BCECE 2017 Question Paper PDF | BCECE 2017 Answer Key PDF |
---|---|
Download PDF | Download PDF |
BCECE Previous Year Question Paper with Answer Key PDFs
Similar Exam Question Papers:
BCECE Questions
1. What is the r.m.s value of an alternating current which when passed through a resistor produces heat, which is four times that produced by a current of 2A in the same resistor?
What is the r.m.s value of an alternating current which when passed through a resistor produces heat, which is four times that produced by a current of 2A in the same resistor?
- 2A
- A
- 4A
- 8A
3. In the displacement method of \(l_1\) and \(l_1\) be the sizes of two images, then the size of the object is:
In the displacement method of \(l_1\) and \(l_1\) be the sizes of two images, then the size of the object is:
\(\sqrt{l_1l_2}\)
\(l_1-l_2\)
- \(\sqrt{\frac{l_1}{l_2}}\)
- \(\frac{l_1+l_2}{2}\)
5. An air doubble is inside water (μ=\(\frac{4}{3}\)). At what distance from the air bubble should a point object be placed so as to form a real image at the same distance from the dubble? (r is the radius of curvature of the bubble)
An air doubble is inside water (μ=\(\frac{4}{3}\)). At what distance from the air bubble should a point object be placed so as to form a real image at the same distance from the dubble? (r is the radius of curvature of the bubble)
2R
4R
3R
The air bubble cannot form a real image
6. An r.m.s voltage of 220 V is applied across a series circuit having a resistance of 100 ohm and an impedance of 22 ohm. the power consumed is:
An r.m.s voltage of 220 V is applied across a series circuit having a resistance of 100 ohm and an impedance of 22 ohm. the power consumed is:
- 100 W
- 1000 W
- 10 W
- 10000 W
Comments