Skip to main content

Can we get admission in to IIT PhD chemistry, by clearing GATE and NET?

 I am a PhD graduate from one of the IITs, so I think, I am eligible to answer this question.

In one line the answer is - YES, you can get into IITs to do PhD even only via GATE. 

After MSc, you can enter into IITs to do PhD without even qualifying JRF. You don't need to qualify NET to enter into PhD in IIT.

You can even enter IIT to do a PhD without having both NET and GATE. If you have JEST or INSPIRE fellowship, you can get admission to IIT after your MSc in Chemistry to do a PhD.

Every year GATE exam is conducted by either one of the IITs and IISc in various subjects. First of all, you need to qualify for this exam, and in addition, you need to have good ranks under 1000 for Chemistry and basic sciences so that you have a high chance of being called for an interview. 

If you have qualified CSIR/UGC-NET, then you are in an advantageous position as professors generally have more vacancies for CSIR students compared to GATE students. Nevertheless, whether you have cleared GATE/NET or both or anything else, you need to do well in the interview to get admission.

For Chemistry: If you have only GATE in Chemistry, you need to perform well in interview which will be mostly subsectioned into Physical, Organic and Inorganic Chemistry, so opt for the one in which you want to do your PhD and you are most comfortable. Brush up your basics very well up to MSc level and appear for the interview. You are not supposed to know everything, but you should try to solve every problem they give you. The answer often does not matter, what matters is your approach.

Do carry your MSc project report and publication (if any) with you in the interview hall. Some questions may also be asked from your project.

If you are from the Physical Chemistry branch (whether experimental/theoretical), do prepare this topic well -

1. Basics of group theory, if given a character table, you should be able to tell IR/Raman active vibrations.

2. Mathematical equations and their drawings, e.g. they may ask you to draw, y=exp(-x), y=exp(-x2), y=xexp(-x2)

3. Particle in a box and operators, basics of quantum mechanics.

4. Basics of solid state chemistry and Chemical Kinetics along with Enzyme catalysis.

5. Thermodynamics - here the concepts need to be understood very well because interviewers often ask in this topic and go very deep into the topic.

6. Basics of electrochemistry



So, all the best for your admission in IITs as a PhD scholar. Feel free to comment if you have any doubt. Have a great day!

Labels:

Comments

Post a Comment

Popular posts from this blog

Chemistry Lab Experiment: Determination of distribution coefficient of iodine between organic and inorganic layer

Determination of the Distribution Coefficient of Iodine Between Organic and Aqueous Phases Introduction The distribution (or partition) coefficient is the ratio in which a solute like iodine divides itself between two immiscible solvents—here, an organic solvent (CCl₄ or CHCl₃) and water. This experiment determines the distribution coefficient K = [ I 2 ] organic / [ I 2 ] aqueous K = [I_2]_{\text{organic}} / [I_2]_{\text{aqueous}} at room temperature. Objective To determine the distribution coefficient of iodine between distilled water and carbon tetrachloride or chloroform. Principle When shaken with two immiscible solvents, iodine distributes between them based on its solubility. At equilibrium, the ratio of concentrations remains constant at a given temperature: K = [ I 2 ] organic [ I 2 ] aqueous K = \frac{[I_2]_{\text{organic}}}{[I_2]_{\text{aqueous}}} Titration using sodium thiosulfate and starch as an indicator allows us to determine the iodine concentrations in both ...
Post a Comment
Read more

B.Tech./MSc/BSc Chemistry Lab Experiment: Decomposition of Diacetone alcohol – Dilatometry method

Decomposition of Diacetone Alcohol – Dilatometry Method Aim To study the kinetics of the decomposition of diacetone alcohol at 25 °C in the presence of alkali using the dilatometric method. Principle The decomposition of diacetone alcohol in an alkaline medium follows the reaction: (CH₃)₂C(OH)CH₂COCH₃ ⟶ 2 CH₃COCH₃ In the presence of excess alkali, the reaction rate is independent of the alkali concentration and depends only on the concentration of diacetone alcohol. This behavior makes it a pseudo-first order reaction . Since the products occupy a larger volume than the reactants, the change in volume during the reaction can be used to monitor the reaction progress. Thus, the dilatometric method is especially suitable for studying this reaction. The rate constant k for a first-order reaction is given by: k = (2.303 / t) × log(V∞- V₀)  / (V∞ - Vt)) Where: V₀ = initial volume Vt = volume at time t V∞ = final volume Apparatus and Chemicals Required Sl. No. Apparatus Chem...
Post a Comment
Read more

Is it possible to install Windows 10 or 11 on an Android device?

 Installing Windows 10 or 11 directly on an Android device (especially phones or tablets) is not officially supported and is generally not practical for most users. However, there are limited workarounds depending on your device, but they come with major limitations and risks. ⚠️ TL;DR: Is it possible? ✅ Yes, but only on a few Android devices with specific chipsets (like x86 tablets or rooted phones). ❌ Not feasible or stable on most regular Android phones (ARM-based) . ⚠️ Not for daily use , mostly experimental or for advanced users. 🔧 Possible Methods (Advanced Users Only) 1. Using Virtualization: Limbo or QEMU What it is : Emulates a PC environment within Android. Tools : Limbo PC Emulator or QEMU for Android. How it works : You run a Windows ISO in a virtual machine. Limitations : Extremely slow (not usable for real work or gaming). Limited RAM/CPU. No GPU acceleration. 2. Windows on ARM on Devices Like Lumia (e.g., Lumia 950 XL)...
Post a Comment
Read more