Summer Internship 2013 - Software Contribution Quota

Under the guidance of Professor D. B. Phatak, Computer Science Department, IIT Bombay


Login to download source | Forgot your password?
View evaluator details of your activities.
List of software uploaded for activities
N/U - Not uploaded
Group Name Activity Name Submitted By SWF
Light 2   7.15.11A Sunlight has colours (activity 15.11) D.Yogendra Rao Run
Light 2   7.15.11A Sunlight has colours (activity 15.11) Anupam Sanghi Run
Light 2   7.15.12A Merging colours (activity 15.12) D.Yogendra Rao Run
Light 2   7.15.12A Merging colours (activity 15.12) Anupam Sanghi Run
Light 2   10.10.10A Refraction through a glass slab (activity 10) Anupam Sanghi Run
Light 2   10.10.11D Refraction explained through velocity Anupam Sanghi Run
Light 2   10.10.9A Submerged objects are lifted (activity 8) Anupam Sanghi Run
Light 3   6.11.6A Simple reflection at mirror (activity 7) Purohith Guguloth, Himanshu Satija Run
Light 3   6.11.7A Comb reflection at mirror (activity 8) Kuruganti Yashwanth, Sriram Pillutla Run
Light 3   7.15.13D Archimedes mirrors Purohith Guguloth, Himanshu Satija Run
Light 3   7.15.2A Position of the image (activity 15.3) Purohith Guguloth, Himanshu Satija Run
Light 3   7.15.3A Right or left (activity 15.4) Purohith Guguloth, Himanshu Satija Run
Light 3   7.15.3A Right or left (activity 15.4) Shashank Goel, N.U.P.U.R. J.H.A. Run
Light 3   8.16.1A Narrow beam reflection at a mirror (activity 1) Purohith Guguloth, Himanshu Satija Run
Light 4   7.15.6A Virtual images at a concave mirror (activity 15.7) Suhanth Boddu, Gagan Khanijau Run
Light 4   7.15.7A Virtual images at a convex mirror (activity 15.8) Suhanth Boddu, Gagan Khanijau Run
Light 4   10.10.1D Reflection at a concave mirror Suhanth Boddu, Gagan Khanijau Run
Light 4   10.10.2D Reflection at a convex mirror Suhanth Boddu, Gagan Khanijau Run
Light 5   7.15.10A Virtual image formed with a concave lens (activity 15.10) Rajat Dubey, Prashant Mishra Run
Light 5   7.15.10A Virtual image formed with a concave lens (activity 15.10) Suyash Goel, Prathamesh Palyekar Run
Light 5   7.15.8A Real image formed with a convex lens (activity 15.10) Rajat Dubey, Prashant Mishra Run
Light 5   7.15.8A Real image formed with a convex lens (activity 15.10) Suyash Goel, Prathamesh Palyekar Run
Light 5   7.15.9A Virtual image formed with a convex lens (activity 15.10) Rajat Dubey, Prashant Mishra Run
Light 5   7.15.9A Virtual image formed with a convex lens (activity 15.10) Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.12D Refraction at a convex lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.12D Refraction at a convex lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.13D Refraction at a concave lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.13D Refraction at a concave lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.14D Tracing rays at a convex lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.14D Tracing rays at a convex lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.15D Tracing rays at a concave lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.15D Tracing rays at a concave lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.16D Image formation by a convex lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.16D Image formation by a convex lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.17D Image formation by a concave lens Rajat Dubey, Prashant Mishra Run
Light 5   10.10.17D Image formation by a concave lens Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.18D Derivation of the lens formulae Rajat Dubey, Prashant Mishra Run
Light 5   10.10.18D Derivation of the lens formulae Suyash Goel, Prathamesh Palyekar Run
Light 5   10.10.19D Multiple lenses together Rajat Dubey, Prashant Mishra Run
Light 5   10.10.19D Multiple lenses together Suyash Goel, Prathamesh Palyekar Run
Light 6   8.17.1A Phases of the moon (activity 2) Akash Bansal Run
Light 6   8.17.2A Visible face of the moon (activity 3) Vivekkumar Verma Run
Light 6   8.17.2A Visible face of the moon (activity 3) Akash Bansal Run
Light 6   8.17.4D Different constellations Akash Bansal Run
Light 6   8.17.5D Solar system Akash Bansal Run
Mechanics 2   7.13.10D Line charts simplified Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.11D Distance time graph demonstration Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.12D Distance time graph – choosing scales Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.13D Uniform motion demonstrated Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.2D Which is faster (same time test) Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.3D Which is faster (same distance test) Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.4D Measuring average speed Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.5D Simple pendulum Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.6A Time period of a simple pendulum (activity 13.1) Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.7D Measuring speed of a ball Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.8D Bar graphs simplified Ishti Gupta, Pranjal Bhown Run
Mechanics 2   7.13.9D Pie charts simplified Ishti Gupta, Pranjal Bhown Run
Mechanics 3   8.11.10A Stool in the sand (extended activity 1) Shubham Utwal Run
Mechanics 3   8.11.1A Classification of forces – push or pull (activity 1) Rakesh Ambastha Run
Mechanics 3   8.11.1A Classification of forces – push or pull (activity 1) Shubham Utwal Run
Mechanics 3   8.11.4A Force can change direction of speed (activity 4) Rakesh Ambastha Run
Mechanics 3   8.11.4A Force can change direction of speed (activity 4) Shubham Utwal Run
Mechanics 3   8.11.5D Force can change shape Shubham Utwal Run
Mechanics 3   8.11.6D Non contact forces Rakesh Ambastha Run
Mechanics 4   8.11.11A Liquid seeks it’s own level (extended activity 3) Amit Bhatti Run
Mechanics 4   8.11.7A Liquid exerts pressure at bottom (activity 8) Amit Bhatti Run
Mechanics 4   8.11.8A Liquid exerts pressure at side (activity 9) Amit Bhatti Run
Mechanics 4   8.11.9A Liquid exerts equal pressure at equal depth (activity 10) Amit Bhatti Run
Mechanics 4   9.10.7D Liquid pressure – hydraulic press Amit Bhatti Run
Mechanics 4   9.10.8A Buoyancy (activity 4) Amit Bhatti Run
Mechanics 4   9.10.9A Archimedes principle (activity 7) Amit Bhatti Run
Mechanics 5   9.8.1D Distance and displacement along a straight line Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.1D Distance and displacement along a straight line Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.1D Distance and displacement along a straight line Shilpa Agarwal, Pratiksha Chinsabwar Run
Mechanics 5   9.8.2D Distance and displacement in a plane Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.2D Distance and displacement in a plane Shilpa Agarwal, Pratiksha Chinsabwar Run
Mechanics 5   9.8.2D Distance and displacement in a plane Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.3A Distance and displacement on roads (activity 4) Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.3A Distance and displacement on roads (activity 4) Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.3A Distance and displacement on roads (activity 4) Shilpa Agarwal, Pratiksha Chinsabwar Run
Mechanics 5   9.8.4D Motion along a straight line (time taken for same distance) Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.4D Motion along a straight line (time taken for same distance) Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.4D Motion along a straight line (time taken for same distance) Shilpa Agarwal, Pratiksha Chinsabwar N/U
Mechanics 5   9.8.5D Motion along a straight line (distance travelled in same time) Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.5D Motion along a straight line (distance travelled in same time) Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.5D Motion along a straight line (distance travelled in same time) Shilpa Agarwal, Pratiksha Chinsabwar N/U
Mechanics 5   9.8.6D Measuring speed (cricket ball) Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.6D Measuring speed (cricket ball) Shilpa Agarwal, Pratiksha Chinsabwar Run
Mechanics 5   9.8.6D Measuring speed (cricket ball) Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.7D Measuring speed practice problems Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.7D Measuring speed practice problems Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.8D Speed with direction in one dimensional motion Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.8D Speed with direction in one dimensional motion Sankalp Rangare, Abhilash Kadhane Run
Mechanics 5   9.8.9D Measuring velocity practice problems Upendra Ghintala, Amit Kumar Run
Mechanics 5   9.8.9D Measuring velocity practice problems Sankalp Rangare, Abhilash Kadhane Run
Mechanics 6   9.8.10A Types of accelerations (activity 8) Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.11D Uniform acceleration in a straight line practice problems Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.12D Distance time graph of uniform speed motion Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.13D Distance time graph of uniform acceleration motion Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.14D Velocity time graph of uniform speed motion Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.15D Velocity time graph of uniform acceleration motion Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.16D Velocity time graph of non-uniform acceleration motion Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.17A Motion graphs for a vehicle journey (activity 9) Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.18A Motion graphs for multiple objects (activity 10) Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.19D Actual motion graph for a train Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.20D Equation of uniform acceleration motion (graphical derivation) Siddhant Zawar, Prashant Aher Run
Mechanics 6   9.8.21D Uniform acceleration motion practice problems Siddhant Zawar, Prashant Aher Run
Mechanics 7   8.11.2A Multiple forces – direction and result (activity 2) Shreshtha Pankaj Run
Mechanics 7   8.11.2A Multiple forces – direction and result (activity 2) Akansha Raj Run
Mechanics 7   8.11.2A Multiple forces – direction and result (activity 2) Ravichandran Aditya Run
Mechanics 7   8.11.2A Multiple forces – direction and result (activity 2) Vishakha Gupta Run
Mechanics 7   8.12.1A Friction force illustrated (activity 2) Shreshtha Pankaj Run
Mechanics 7   8.12.1A Friction force illustrated (activity 2) Ravichandran Aditya Run
Mechanics 7   8.12.1A Friction force illustrated (activity 2) Vishakha Gupta Run
Mechanics 7   8.12.2A Friction and surface type (activity 3) Ravichandran Aditya Run
Mechanics 7   8.12.2A Friction and surface type (activity 3) Shreshtha Pankaj Run
Mechanics 7   8.12.2A Friction and surface type (activity 3) Vishakha Gupta Run
Mechanics 7   8.12.3D Friction - good and bad Akansha Raj Run
Mechanics 7   8.12.3D Friction - good and bad Ravichandran Aditya Run
Mechanics 7   8.12.3D Friction - good and bad Shreshtha Pankaj Run
Mechanics 7   8.12.3D Friction - good and bad Vishakha Gupta Run
Mechanics 7   8.12.4D Types of friction Ravichandran Aditya Run
Mechanics 7   8.12.4D Types of friction Vishakha Gupta Run
Mechanics 7   8.12.4D Types of friction Shreshtha Pankaj Run
Mechanics 8   9.9.1D Balanced and unbalanced forces Madhur Charkha, Nilesh Ramteke Run
Mechanics 8   9.9.1D Balanced and unbalanced forces Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.1D Balanced and unbalanced forces Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.1D Balanced and unbalanced forces Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.2D Simple illustration of friction Hemant Bhoyar, Ajinkya Dhumale Run
Mechanics 8   9.9.2D Simple illustration of friction Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.2D Simple illustration of friction Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.2D Simple illustration of friction Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.3D Galileo’s inclined plane experiment Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.3D Galileo’s inclined plane experiment Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.3D Galileo’s inclined plane experiment Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.4D Inertia effects Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.4D Inertia effects Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.4D Inertia effects Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.5D Inertia and mass Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.5D Inertia and mass Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.5D Inertia and mass Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.6D Newton’s second law : simple illustration and practice Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.6D Newton’s second law : simple illustration and practice Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.6D Newton’s second law : simple illustration and practice Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.7D Newton’s second law : difficult practice problems Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.7D Newton’s second law : difficult practice problems Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.7D Newton’s second law : difficult practice problems Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.8D Action and reaction illustrations Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.8D Action and reaction illustrations Pooja Deo, Cheena Jain Run
Mechanics 8   9.9.8D Action and reaction illustrations Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.9D Conservation of momentum practice problems Gunjan Soni, Harshal Nagda Run
Mechanics 8   9.9.9D Conservation of momentum practice problems Rahul Chakraborty, Naman Choudhary Run
Mechanics 8   9.9.9D Conservation of momentum practice problems Pooja Deo, Cheena Jain Run
Mechanics 9   9.10.1D Circular motion – centripetal force Bheemareddy Ramidi Run
Mechanics 9   9.10.1D Circular motion – centripetal force Zeel Shah Run
Mechanics 9   9.10.2D Kepler’s law illustration Bheemareddy Ramidi Run
Mechanics 9   9.10.2D Kepler’s law illustration Zeel Shah Run
Mechanics 9   9.10.3D Gravitation and planetary motion Zeel Shah Run
Mechanics 9   9.10.4D Acceleration due to gravity Zeel Shah Run
Mechanics 9   9.10.5D Free fall simple practice problems Vipin Diwakar Run
Mechanics 9   9.10.6D Mass and weight Bheemareddy Ramidi Run
Mechanics 9   9.8.22D Changing direction of velocity (circular motion) Bheemareddy Ramidi Run
Mechanics 9   9.8.22D Changing direction of velocity (circular motion) Zeel Shah Run
Mechanics 10   9.11.10D Mechanical – potential plus kinetic - energy Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.10D Mechanical – potential plus kinetic - energy Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.11D Potential to kinetic energy conversion Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.11D Potential to kinetic energy conversion Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.1D Work or no work (examples) Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.1D Work or no work (examples) Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.2D Simple work calculations Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.2D Simple work calculations Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.3D Negative work calculations Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.3D Negative work calculations Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.4A Sources of energy (activity 5) Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.4A Sources of energy (activity 5) Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.5A Kinetic energy (activity 7) Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.5A Kinetic energy (activity 7) Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.6D Kinetic energy problems Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.6D Kinetic energy problems Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.7D Potential energy - spring Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.7D Potential energy - spring Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.8D Potential energy - elasticity Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.8D Potential energy - elasticity Ankur Bhardwaj, Basav Singh Run
Mechanics 10   9.11.9D Potential energy - gravity Abhinav Puri, Rajeev Kumar Run
Mechanics 10   9.11.9D Potential energy - gravity Ankur Bhardwaj, Basav Singh Run
Special 1   The DC circuit laboratory Sindhuja Kamatam, Srujan Akumarthi Run
Special 1   The DC circuit laboratory Keshav Goel, Shubham Goel Run
Special 1   The DC circuit laboratory Naveen Kumar, Md.Faizan Ali Run
Special 2   The AC circuit laboratory Shobhit Srivastava, Vighnesh Birodkar Run
Special 2   The AC circuit laboratory Vijay Singh, Rishabh Yadav Run
Special 3   The magnetic effects library Dhruv Joshi, Manisha Choudhury Run
Light 7   8.16.8D The human eye Piyush Tiwari Run
Light 7   8.16.8D The human eye Pawan Deshmukh Run
Light 7   10.11.1D The detailed human eye Piyush Tiwari Run
Light 7   10.11.1D The detailed human eye Pawan Deshmukh Run
Light 7   10.11.2D Human eye lens accomodation Piyush Tiwari Run
Light 7   10.11.2D Human eye lens accomodation Pawan Deshmukh Run
Light 7   10.11.3D Myopia (short sight/near-sightedness) explained Piyush Tiwari Run
Light 7   10.11.3D Myopia (short sight/near-sightedness) explained Pawan Deshmukh Run
Light 7   10.11.4D Hypermetropia (long sight/far-sightedness) explained Piyush Tiwari Run
Light 7   10.11.4D Hypermetropia (long sight/far-sightedness) explained Pawan Deshmukh Run
Mechanics 11   9.11.12D Simple power examples Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   9.11.12D Simple power examples Shubham Kansal, Arpit Jain Run
Mechanics 11   9.11.13D Simple electrical energy examples Smriti Singh, Shaswat Rungta Run
Mechanics 11   9.11.13D Simple electrical energy examples Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   9.11.13D Simple electrical energy examples Sourabh Sethi, Anurag Modi Run
Mechanics 11   10.14.1D Energy is being lost to unusable forms Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.1D Energy is being lost to unusable forms Smriti Singh, Shaswat Rungta Run
Mechanics 11   10.14.1D Energy is being lost to unusable forms Shubham Kansal, Arpit Jain Run
Mechanics 11   10.14.2D Good sources of energy Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.2D Good sources of energy Shubham Kansal, Arpit Jain Run
Mechanics 11   10.14.2D Good sources of energy Smriti Singh, Shaswat Rungta Run
Mechanics 11   10.14.3D The electric generator – how does it work Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.4D Fossil fuel (thermal) generators Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.5D Water (hydro) generators Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.6D Bio gas plant Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.7D Wind energy farms Hitesh Yadav, Ashwini Sharnagat Run
Mechanics 11   10.14.8D Alternate energy Sourabh Sethi, Anurag Modi Run
Electricity 1   6.12.2D Electric cell Niharika Kurade Run
Electricity 3   7.14.3D Heating effect of electricity (activity 14.2) Akshatha Mohan Run
Electricity 3   7.14.3D Heating effect of electricity (activity 14.2) Roshan Piyush Run
Electricity 3   7.14.3D Heating effect of electricity (activity 14.2) Bahaaiman Abdulhakeem N/U
Electricity 3   7.14.4A Appliances using electrical heat (activity 14.3) Akshatha Mohan Run
Electricity 3   7.14.4A Appliances using electrical heat (activity 14.3) Roshan Piyush Run
Electricity 3   7.14.5A Melting delicate wires (activity 14.4) Akshatha Mohan Run
Electricity 3   7.14.5A Melting delicate wires (activity 14.4) Roshan Piyush Run
Electricity 3   7.14.6A Electric fuses (activity 14.4) Akshatha Mohan Run
Electricity 3   7.14.6A Electric fuses (activity 14.4) Roshan Piyush Run
Electricity 3   7.14.6A Electric fuses (activity 14.4) Bahaaiman Abdulhakeem Run
Electricity 4   7.14.10D Simple railway signal B.M. Ashok Run
Electricity 4   7.14.10D Simple railway signal Sudhanshu Verma Run
Electricity 4   7.14.7A Magnetic effect of electric current (activity 14.5) B.M. Ashok Run
Electricity 4   7.14.7A Magnetic effect of electric current (activity 14.5) Sudhanshu Verma Run
Electricity 4   7.14.8A Basic electromagnet (activity 14.6) B.M. Ashok Run
Electricity 4   7.14.8A Basic electromagnet (activity 14.6) Sudhanshu Verma Run
Electricity 4   7.14.9D Basic electric bell B.M. Ashok Run
Electricity 4   7.14.9D Basic electric bell Sudhanshu Verma Run
Electricity 5   8.14.10A Electroplating with different metal rods (extended activities) Lokesh Sharma, Anupam Samanta Run
Electricity 5   8.14.2D LED testers Vipul Gandhi, Anshul Nigam N/U
Electricity 6   8.15.1A Charging by rubbing (activity 1) Deepak Agarwal Run
Electricity 6   8.15.2D Experiment charging by rubbing (activity 2) Deepak Agarwal Run
Electricity 6   8.15.4A Simple electroscope (activity 4) Deepak Agarwal Run
Electricity 7   10.12.1D Calculating charge flowing through circuit Rabart Kurrey Run
Electricity 7   10.12.1D Calculating charge flowing through circuit Ashwani Kumar Run
Electricity 7   10.12.1D Calculating charge flowing through circuit Prateek Somani Run
Electricity 7   10.12.2D Velocity of electrons Ashwani Kumar Run
Electricity 7   10.12.2D Velocity of electrons Rabart Kurrey Run
Electricity 7   10.12.2D Velocity of electrons Prateek Somani Run
Electricity 7   10.12.3D Current and water flow Rabart Kurrey Run
Electricity 7   10.12.3D Current and water flow Ashwani Kumar Run
Electricity 7   10.12.3D Current and water flow Prateek Somani Run
Electricity 7   10.12.4D Work done in moving charge Rabart Kurrey Run
Electricity 7   10.12.4D Work done in moving charge Ashwani Kumar Run
Electricity 7   10.12.4D Work done in moving charge Prateek Somani Run
Electricity 8   10.12.5A Ohm’s law experiment (activity 1) Aaquib Ishtiyaq Run
Electricity 8   10.12.5A Ohm’s law experiment (activity 1) Suman Devi Run
Electricity 8   10.12.6A Current through bulbs of different wattage (activity 2) Aaquib Ishtiyaq Run
Electricity 8   10.12.6A Current through bulbs of different wattage (activity 2) Suman Devi Run
Electricity 8   10.12.7A Current through wires of different length (activity 3) Aaquib Ishtiyaq Run
Electricity 8   10.12.7A Current through wires of different length (activity 3) Suman Devi Run
Electricity 8   10.12.8A Current through wires of different radius (activity 3) Aaquib Ishtiyaq Run
Electricity 8   10.12.8A Current through wires of different radius (activity 3) Suman Devi Run
Electricity 8   10.12.9A Current through wires of different material (activity 3) Aaquib Ishtiyaq Run
Electricity 8   10.12.9A Current through wires of different material (activity 3) Suman Devi Run
Electricity 9   10.12.10A Resistances in series (activity 4) Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Electricity 9   10.12.11A Resistances in parallel (activity 5) Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Electricity 9   10.12.12D Combining large and small resistances Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Electricity 9   10.12.13D Build circuit of required resistance from given resistors Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Electricity 9   10.12.14D Heating calculations of electric current Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Electricity 9   10.12.15D Simple power (wattage) calculations Naveenkumar Chittipolu, Shivakumar Kanneboina Run
Magnetism 1   6.13.1D Magnetic appliances Sukriti Nain, Suyash Raghava Run
Magnetism 1   6.13.1D Magnetic appliances Yashali Bans, Kalyanee Chendke Run
Magnetism 1   6.13.2A Magnetic and non magnetic materials (activity 2) Sukriti Nain, Suyash Raghava Run
Magnetism 1   6.13.2A Magnetic and non magnetic materials (activity 2) Yashali Bans, Kalyanee Chendke Run
Magnetism 1   6.13.3A Magnetic poles of common magnets (activity 4) Sukriti Nain, Suyash Raghava Run
Magnetism 1   6.13.3A Magnetic poles of common magnets (activity 4) Yashali Bans, Kalyanee Chendke Run
Magnetism 1   6.13.4A Magnetic direction (activity 5) Yashali Bans, Kalyanee Chendke Run
Magnetism 1   6.13.5A Magnetic compass (activity 5) Yashali Bans, Kalyanee Chendke Run
Magnetism 1   6.13.7D Simple attraction and repulsion between magnets Sukriti Nain, Suyash Raghava N/U
Magnetism 1   6.13.7D Simple attraction and repulsion between magnets Yashali Bans, Kalyanee Chendke Run
Magnetism 2   10.13.2A Magnetic field due to a current carrying conductor (activity 4) Nishank Maheshwari Run