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GATE 2023 Biomedical Engineering Question Paper PDF will be available here after the conclusion of the exam. IIT Kanpur is going to conduct GATE 2023 Biomedical Engineering exam on February 5, 2023 in the Afternoon Session from 02:30 PM to 05:30 PM. Students have to answer 65 questions in GATE 2023 Biomedical Engineering Question Paper carrying a total weightage of 100 marks. 10 questions are from the General Aptitude section and 55 questions are from Engineering Mathematics and Core Discipline.
GATE 2023 Biomedical Engineering Question Paper with Answer Key PDF
| GATE 2023 Biomedical Engineering Question Paper PDF | GATE 2023 Biomedical Engineering Answer Key PDF |
|---|---|
| To Be Updated | To Be Updated |
Also Check:
| Previous Year GATE Biomedical Engineering Question Papers | GATE 2023 Biomedical Engineering Paper Analysis |
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GATE Questions
1. Write a balanced equation for the reaction of molecular nitrogen (N2) and oxygen (O2) to form dinitrogen pentoxide. \((f(x)=x^2)\)
Write a balanced equation for the reaction of molecular nitrogen (N2) and oxygen (O2) to form dinitrogen pentoxide. \((f(x)=x^2)\)
- N2 + O2 → N2O5 (unbalanced equation)
- 2N2 + 5O2 → 2N2O5
- option 3
3. For the reaction, $H_{2} + I_{2} {\rightleftharpoons} 2HI, K= 47.6.$ If the initial number of moles of each reactant and product is 1 mole then at equilibrium
- $\left[I_{2}\right]=\left[H_{2}\right], \left[I_{2}\right] > \left[HI\right]$
- $({\frac{x^3}{9}})$
\(\left[I_{2}\right]>\left[H_{2}\right], \left[I_{2}\right] = \left[HI\right]\)- $\omega\propto\,n^{\frac{1}{3}}$
6. In p-type semiconductor density of mobile holes exceeds that of conduction electrons. Hence, minority carriers in p -type semiconductor are conduction (free) electrons.
In p-type semiconductor density of mobile holes exceeds that of conduction electrons. Hence, minority carriers in p -type semiconductor are conduction (free) electrons.
a
b
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