Skip to main content

Step-by-Step Guide to B.Sc. Agriculture Admission in India

 


The procedure for admission to B.Sc. Agriculture in India typically involves the following steps:

 Eligibility: To be eligible for admission to B.Sc. agriculture, a candidate must have passed 10+2 with Physics, Chemistry, Biology/Mathematics as main subjects with a minimum of 50% marks (45% for reserved categories).

Entrance Exam: Most of the agricultural universities in India conduct an entrance exam for admission to B.Sc. Agriculture. Some of the popular entrance exams are All India Pre-Agriculture Test (AIEEA), Joint Entrance Examination (JEE) Main, Agricultural Common Entrance Test (AGRICET), etc.

Application Process: Candidates need to fill out the application form for the entrance exam, either online or offline, as per the instructions provided by the concerned university.

Admit Card: After the successful submission of the application form, candidates can download their admit card for the entrance exam.

Entrance Exam: Candidates need to appear for the entrance exam as per the schedule provided by the concerned university. The exam typically includes multiple-choice questions from Physics, Chemistry, Biology, and Mathematics.

Result Declaration: The result of the entrance exam will be declared by the concerned university.

Counseling Process: Based on the merit list of the entrance exam, eligible candidates will be called for counseling, where they will be allotted a seat in the college based on their choice and availability of seats.

Document Verification: Candidates need to verify their documents, including mark sheets and certificates of 10th and 12th, during the counseling process.

Fee Payment: After the seat allotment, candidates need to pay the fee for the course as per the rules and regulations of the concerned university.

This is a general outline of the admission procedure for B.Sc. Agriculture in India. The exact procedure may vary from university to university. It is advisable for candidates to carefully read the admission brochure and follow the instructions provided by the concerned university.

Labels:

Comments

Post a Comment

Popular posts from this blog

Mastering Basis Sets in Theoretical Chemistry: Physical Meaning, Types, Applications, and BSSE Correction

  Basis Set in Theoretical Chemistry: An Introduction In theoretical chemistry, the concept of a basis set plays a fundamental role in the calculation of molecular properties. A basis set is a collection of functions used to approximate the wavefunction of a molecule. The wavefunction represents the quantum mechanical state of a molecule, and its calculation is the foundation for the prediction of molecular properties such as bond lengths, bond angles, and energies. The choice of basis set significantly affects the accuracy and computational cost of the calculation. Therefore, selecting the most suitable basis set is critical for obtaining reliable and accurate results. We will be looking at... ·          why we use basis sets. ·          the physical meaning of basis sets. ·          why to use STOs and GTOs. ·        ...
Post a Comment
Read more

Gaussian Common Errors and Solutions

  Gaussian Common Errors and Solutions Link Error Message L1 ntrex1 Illegal ITpye or MSType generated by parse QPErr L101 End of file in Zsymb Found a string as input There are no atoms in this input structure Symbol not found in Z-matrix Variable index is out of range (Case 1) Variable index is out of range (Case 2) Attempt to redefine unrecognized symbol L103 Error imposing constraints FormBX had a problem Maximum of*** iterations exceeded in RedStp Linear search skipped for unknown reason Inconsistency: ModMin= N Eigenvalue= MM L108 Variable has invalid number of steps L114 Error in INITNF L123 Delta-x Convergence NOT Met GS2 Optimization Failure L202 Problem with the distance matrix Atom too close Change in point group or standard orientation FO...
Post a Comment
Read more

NCI Analysis From Scratch Using Gaussian and Multiwfn software

 Non-covalent interactions are important in understanding the behavior of molecules and materials in chemistry and biology. These interactions include hydrogen bonds, van der Waals forces, electrostatic interactions, and more. Calculating and analyzing non-covalent interactions can be crucial for predicting molecular structures, binding affinities, and other properties. Here's a general guide on how to calculate and analyze non-covalent interactions: 1. Software and Tools: You'll need specialized software or tools to perform quantum mechanical calculations or molecular dynamics simulations. Some popular options include Gaussian, DFT (Density Functional Theory) programs, and molecular modeling software like VMD, PyMOL, and Gaussian. 2. Geometry Optimization: Start by optimizing the geometry of the molecules or complexes of interest. This involves finding the lowest energy structure by minimizing the potential energy surface. 3. Identify Non-Covalent Interactions: Once you have o...
Post a Comment
Read more