B313 SRI SAINATH COMMERCE COLLEGE, BIDAR B.Com is a 3 Years programme offered in specializations like Commerce. B313 SRI SAINATH COMMERCE COLLEGE, BIDAR B.Com admission 2024 will be based on CBSE 12th, Karnataka PGCET.
To pursue a Bachelor of Commerce (B.Com.) degree at B313 Sri Sainath Commerce College in Bidar, Bidar, there are certain eligibility criteria that students must meet. Firstly, candidates must have completed their higher secondary education (10+2) or its equivalent from a recognized board or institution. Secondly, they should have studied commerce as a subject in their 10+2 curriculum. Additionally, students must have obtained a minimum aggregate score of 50% in their qualifying examination. However, the specific eligibility criteria may vary depending on the college's admission policy and guidelines. It is recommended that interested candidates refer to the college's official website or prospectus for detailed information regarding the admission process.
Admission to the B.Com at B313 SRI SAINATH COMMERCE COLLEGE, BIDAR is subject to meeting the eligibility criteria and the candidates have to secure a valid score in Karnataka PGCET, CBSE 12th. All shortlisted candidates have to complete the B313 SRI SAINATH COMMERCE COLLEGE, BIDAR B.Com admission process by getting their documents verified and paying the admission fee.
Event Name | Date |
Registration Date | 01 May 2025 - 01 Jun 2025 (TENTATIVE) |
Admit Card Date | 01 Jul 2025 - 01 Jul 2025 (TENTATIVE) |
Exam Date | 01 Aug 2025 - 01 Aug 2025 (TENTATIVE) |
Answer Key Release Date | 01 Aug 2025 - 01 Aug 2025 (TENTATIVE) |
Result Date | 01 Sep 2025 - 01 Sep 2025 (TENTATIVE) |
Counselling Date | 01 Nov 2025 - 01 Nov 2025 (TENTATIVE) |
B313 SRI SAINATH COMMERCE COLLEGE, BIDAR B.Com application form has to be submitted online by visiting the official website. Candidates aspiring to take admission to the B.Com course at B313 SRI SAINATH COMMERCE COLLEGE, BIDAR have to first check and meet the eligibility criteria and then proceed further with the application process.