by admin | May 25, 2021 | Corporate Jobs, Employment, Private Jobs
Gurugram : Samsung India is planning to hire over 300 engineers from the Indian Institutes of Technology (IIT) this placement season to strengthen its Research and Development (R&D) operations in the country, a company spokesperson said on Tuesday.
Company officials from three R&D centres located in Bengaluru, Delhi and Noida, will visit the IITs at Delhi, Kanpur, Mumbai, Chennai, Kharagpur, Guwahati, Varanasi and Roorkie starting December 1.
The R&D centres will also hire engineers from the newer IITs at Hyderabad, Dhanbad, Ropar, Indore, Gandhinagar, Patna, Bhubaneswar, Mandi and Jodhpur.
“Our R&D centres are focusing on cutting edge technologies, developing innovations for the Indian market as well as for the globe. We will continue to add engineers for research and development in these areas and further our commitment to making a strong research base in India,” said Sameer Wadhawan, Head, Human Resources, Samsung India.
Samsung has offered over 200 Pre-Placement Offers (PPOs) to students at the IITs this year.
“There’s a tactical shift that we have made to spot talent early and offer PPOs. This year, we had a slightly longer internship period so that students can spend more time in the company, giving them opportunity to interact with the leaders and managers.
“This helps us select bright talents amongst them,” said Wadhawan.
Apart from the IITs, Samsung will also be hiring from other top engineering colleges such as BITS Pilani, IIITs, NITs, Delhi Technological University, Manipal Institute of Technology and IISc Bangalore.
Between the IITs and other engineering colleges, Samsung will hire close to 1,000 engineers. In all it has offered 350 PPOs this year.
—IANS
by admin | May 25, 2021 | News
By Maeeshat Desk,
Patna: The Central Board of Secondary Education (CBSE) published the results of the national competitive examination known as the Joint Entrance Examination for candidate selection to the engineering institutes on the 30th April 2018. 137 students of Rahmani Program of Excellence were successful this year where more than one million students participated in the JEE. Now, these 137 students will prepare for the coveted IIT seat via the competitive exam known as JEE-Advanced.
Rahmani students were able to achieve All India Ranks (AIR) of General 430/OBC-36, General 602/OBC-65, General 3271, 2690, 2742, 3779, 4902, 3276 among others, whereas state rank is expected to be number 3rd. Among the total appearing 182 students, 137 were successful with an overall success rate of 75%. 23 out of 23 (100%) students from Rahmani30 center, Patna were successful whereas 114 out of 159 were successful from its other batches. It is noteworthy that in 2017, 120 out of 144 Rahmani students were successful at this examination and 75 successfully qualified the coveted JEE Advanced examination.
Interestingly, 18 students of Rahmani30 Medical batch also attempted the exam and out of these 12 were successful. This is an unprecedented success and paints a very flattering story for Rahmani Program of Excellence and its learning methodology. These students will be aptly suited for fields that crosses medicine, surgery and engineering.
Rahmani Program of Excellence under Rahmani Foundation has been successfully replacing educational hopelessness in the community with the courage to dream big all the while demonstrating its proven method of success. Hazrat Ameer-e-shariat Maulana Mohammad Wali Rahmani, who is the founder of this nation-wide program stated that this is a result of consistent guidance and untiring effort of Shri. Abhayanand Ji (Ex. DGP Bihar), and sincere and continuous efforts of center leadership that comprises of the faculty, management and staff. He further mentioned that this result could not have been realized had the students and their parents not partnered with us, especially given our different model of education and training that seeks to convert students into learners.
Center Performance:
Units |
Total Students |
Mains Qualified |
Percent |
R30 Batch-1 |
23 |
23 |
100% |
Senior Batch |
24 |
23 |
96% |
MSAR30 |
44 |
38 |
86% |
Wave-Medical |
18 |
12 |
67% |
Fazlani-R30 |
28 |
17 |
61% |
R30 Batch-2 |
27 |
16 |
59% |
R30 Batch-3 |
18 |
8 |
44% |
Total |
182 |
137 |
75% |
NOTE: Wave-Medical will not appear for JEE-Advance. |
Student List:
Aamir Sohail |
Md Imran Ahmad |
Muneeb Abduraheem |
Aatif Mohsin |
Md Meraj Alam |
Muntaha Kamal |
Abdul Muqutadir |
Md Misbah Ibrahim |
Mustafa Raza |
Abdul Wahidur Rahman |
Md Monib |
Nafis Hassan |
Abdullah |
Md Nadir Moiz |
Np Shammas |
Abdullah Akram |
Md Osama Ansari |
Oqais Tanvir |
Abdur Rasheed |
Md Rehan |
Osama Mohd Abdul Fattah |
Abish Aziz |
Md Rizwan Hussain |
Raheeb Sadique |
Abu Bakar Siddique |
Md Saad Zemam |
Rehan Ahmad |
Adil Kazim |
Md Samar Siddiqui |
S M Shakir Hood Ahmad |
Adnan Sami |
Md Shahnawaz |
Salman Ul Hasan |
Adnan Shahid |
Md Shamshad Shams |
Saqlain Mokhtar |
Afzal Khan |
Md Simdani |
Saquib Ahmad |
Ahmed Abdul Rahman |
Md Touseef Raza |
Saquib Taj |
Altamash Rahman |
Md Zaki Afaque Akhtar |
Sarfaraz Ahmad |
Amdad Muhammed P.V |
Md Zeeshan Alam |
Sayed Uzair Ahmed |
Ansari Abdullah Mossaddique |
Md. Abdullah |
Shabab Anwar |
Arbab Karim |
Md. Abu Zaid |
Shadan Reyaz |
Arshad Warsi |
Md. Adnan Ansari |
Shaharyar Sahil |
Asad Maqbool |
Md. Afridi |
Shahid Siddiqui |
Ashif Nawaz Akhtar |
Md. Atif Hussain |
Shahnawaz Ahmad |
Ashraf Nawaz |
Md. Hanzala Sabir |
Shahper Zia |
Atif Rabbani |
Md. Kasaf |
Shahroor Yezdani |
Atiqur Rahman |
Md. Mohsin Kaleem |
Shahzadah Talib |
Bagwan Ammar Javed |
Md. Mudassir Alam |
Shaik Siraj |
Choudhary Mohammad Adil |
Md. Rabbani |
Shaikh Izhar Ashfaque |
Enautullah Shamim Sayed |
Md. Safi Ur Rahman |
Shaikh Mohd Faizan Mohd Azad |
Fahad Khan |
Md. Saquib Kamal |
Sibtain Raza |
Faisal Ata |
Md. Shahid Ali Khan |
Sohaib Anwer |
Fardeen Nayeem |
Md. Shahrukh Alam |
Suhail Akther. M.I. |
Hadiq Rafjith Pv |
Md. Waquar Wasif |
Syed Adnan |
Hafidh Farhan, S. |
Mirza Hamid Raza Mirza Khalid Raza |
Syed Kamran Ahmed |
Ibrarul Haque |
Mohammad Abdul Hadi |
Syed Khurram Ather |
Imbesat Ahmad |
Mohammed Abdul Muhaymin |
Syed Quayam Asdaque |
Jairumi Mohammad Rashid |
Mohammed Abdullah Omer |
Syed Rayan Zaki |
Kamran Razi |
Mohammed Adnan |
Syed Sufiyan Ali Yusuf Ali |
Mahammed Fazal Khattal |
Mohammed Furqhan Ahmed |
Tarique Ahmed |
Majhar Hussain |
Mohammed Ibrahim Ali |
Wajeehul Kalam |
Md Aariz Mozammil |
Mohammed Masihuddin |
Waquar Haseeb |
Md Adil Ahmad |
Mohammed Nadir |
Waship Rahuman |
Md Ahzam |
Mohd Bilal Ahmed |
Wasim Anwar |
Md Akhlaque |
Mohsin Ansari |
Yamir Ahsan |
Md Ashhar Rahman |
Muhammad Adil. Ct |
Yaseen Ahmed |
Md Dilshad Ansari |
Muhammad Kamram Khan |
Zeyaur Rahman |
Md Enamul Ghani |
Muhammad Tahseen Raza |
Zia Ashraf |
Md Faisal |
Muhammed Sinan K |
Rahmani Program of Excellence has gone global this year. For the first time entrance examination were conducted in the United Arab Emirates. This is a great opportunity for these students to prepare for universities of national importance and seek their higher education in one of the top ranked universities in India.
This year Rahmani30 has launched Mentor30 program as it’s initiative to extend its reach. Under this program 30 graduates will be selected from across India and will be trained on Rahmani30 process of teaching & learning and will be on job with Rahmani Program of Excellence.
by admin | May 25, 2021 | Entrepreneurship, Markets, News, Social Entrepreneur, Technology
By Sirshendu Panth,
Kolkata : Setting up of a Groundwater Mission can help develop an action plan for tackling problems like arsenic and fluoride pollution, storage anomalies and the alarming dwindling of freshwater resources that plague the South Asian region, a new book edited and partly written by an IIT don and other experts contends.
The mission, on the lines of the Drinking Water Mission, could play a pivotal role in formulating and implementing an initial plan based on feedback received from key working groups on groundwater, says Indian Institute of Technology-Kharagpur (IIT-Kgp) Associate Professor Abhijit Mukherjee, the editor of the soon-to-be-published “Groundwater of South Asia”.
“The working groups would be on aquifer mapping and delineation, recharge systems and well-use efficiencies, groundwater-power co-management, demand management of aquifers and on groundwater legislation,” suggests the book, partly authored by Mukherjee and his students, and partly by invited stalwarts across the globe who have worked in South Asia.
Attached to the Department of Geology & Geophysics in the institute’s School of Environmental Science and Engineering, Mukherjee has worked in different parts of South Asia, looking at groundwater issues for almost two decades.
The South Asian region, comprising Afghanistan, Bangladesh, Bhutan, India, Myanmar, Nepal, Pakistan and Sri Lanka, is the world’s most populous and densely-populated region. It occupies approximately four per cent of the world’s land area but supports over 25 per cent of the global population.
Despite being drained by three of the world’s large river systems that discharge huge volumes of water, sediments and nutrients to the Arabian Sea and Bay of Bengal, almost half the water that enters the South Asian hydrologic system is dissipated by poorly understood and quantified processes.
“The region faces acute shortages of drinking water and other usable water, as it is witnessing rapid rise in water demand and change in societal water-use pattern because of accelerated urbanisation and change in lifestyles,” Mukherjee told IANS in an e-mail.
“Although South Asia is home to some of the highest-yielding aquifers of the world, the distribution of usable groundwater in the region is not uniform and there is a growing concern about the availability of safe water in many areas like wide portions of the Brahmaputra, Ganges and Indus basins due to presence of natural contaminants.
“Of these, the presence of elevated concentrations of arsenic and fluoride has been widely observed,” says the book, dwelling at length on arsenic pollution in the Ganges, Indus, Brahmaputra, Meghna and Kabul basin and fluoride pollution in the Indus basin.
“The distribution of arsenic concentrations within the basin may seem to be extremely heterogeneous and even patchy due to the integrated effect of the geomorphology, geology, hydrostratigraphy, depth, lithology (study of the general physical characteristics of rocks), bio-geochemical environment and anthropogenic (relating to, or resulting from the influence of human beings on nature) influences. Among the anthropogenic factors contributing to arsenic contaminations are ground-water abstractions, land use patterns, fertilisers and sewage,” says the book, while calling the arsenic contamination of groundwater in the Bengal Basin “the largest mass poisoning in human history.”
The 799-page book, divided into 44 chapters and published by Springer, also refers to extensive pumping of groundwater in the region, leading to lowering of the water table and enhanced inflow of oxygen-rich surface waters which “perturbs the redox state of the aquifers and may mobilise arsenic”.
The authors studied the groundwater storage (GWS) anomaly in the Indian subcontinent by using a combination of satellite and global land surface model-based outputs between 2003 and 2014, and observed “rapid declination” of GWS in northern and eastern regions of the subcontinent.
Mukherjee warned that the water crises might further aggravate with the predicted climate change and melting of the high-altitude glaciers that feed the hydrological system of South Asia.
“However, the existing knowledge is extremely heterogeneous. While some regions of these countries provide most studied natural groundwater system of the world, there is barely any knowledge existing from other areas… Also, the extent and effect of other emerging and unidentified groundwater contaminants like nitrate, pesticides, radiogens, antibiotics etc. are yet to be accounted for,” Mukherjee said.
The book also contains preambles of some of the themes written by globally eminent groundwater researchers like Cliff Voss of the US Geolgoical Survey, Matt Rodell from NASA, Science Director of the British Geolgoical Survey Martin Smith, AUS scientist Alan Fryar and eminent water economist Tushaar Shah.
(Sirshendu Panth can be contacted at s.panth@ians.in )
—IANS
by admin | May 25, 2021 | News, Politics
New Delhi : To encourage research in higher education institutions, the government would provide Rs 2,000 crore interest-free loans to six institutions, Human Resource Development Minister Prakash Javadekar announced on Wednesday.
“Happy to inform that today Higher Education Financing Agency (HEFA) Board would be approving Rs 2,000 crore interest-free loans for six institutions towards research, academic and infra projects,” the Minister said in a tweet.
The six institutions which would receive the loan include IIT Kanpur, IIT Delhi, IIT Bombay, IIT Madras, IIT Kharagpur and CSE, National Institute of Technology Karnataka, Surathkal.
—IANS