The diagram shows three infinitely long uniform line charges placed on the X, Y and Y, axis. The work done in moving a unit positive charge from (1, 1, 1) to (0, 1, 1) is equal to
![The dimensions of `e^(2)//4pi epsilon_(0)hc`, where `e, epsilon_(0),h` and `c` are electroni - YouTube The dimensions of `e^(2)//4pi epsilon_(0)hc`, where `e, epsilon_(0),h` and `c` are electroni - YouTube](https://i.ytimg.com/vi/LFrCqhbl5_c/maxresdefault.jpg)
The dimensions of `e^(2)//4pi epsilon_(0)hc`, where `e, epsilon_(0),h` and `c` are electroni - YouTube
![Remote Sensing | Free Full-Text | Preliminary Assessment of Turbidity and Chlorophyll Impact on Bathymetry Derived from Sentinel-2A and Sentinel-3A Satellites in South Florida Remote Sensing | Free Full-Text | Preliminary Assessment of Turbidity and Chlorophyll Impact on Bathymetry Derived from Sentinel-2A and Sentinel-3A Satellites in South Florida](https://www.mdpi.com/remotesensing/remotesensing-11-00645/article_deploy/html/images/remotesensing-11-00645-g002.png)
Remote Sensing | Free Full-Text | Preliminary Assessment of Turbidity and Chlorophyll Impact on Bathymetry Derived from Sentinel-2A and Sentinel-3A Satellites in South Florida
![Show that electric potential at a point P, at a distance 'r' from a fixed point charge Q, is given by V = (1/4piepsilon0) Q/r . Show that electric potential at a point P, at a distance 'r' from a fixed point charge Q, is given by V = (1/4piepsilon0) Q/r .](https://d1hj4to4g9ba46.cloudfront.net/questions/1960081_1302975_ans_15602be0b2e845bc8150865c6789203e.jpg)
Show that electric potential at a point P, at a distance 'r' from a fixed point charge Q, is given by V = (1/4piepsilon0) Q/r .
![A point with unique β-expansion for β ∈ ( k+1+ √ k 2 +6k+5 2 , m + 1]. | Download Scientific Diagram A point with unique β-expansion for β ∈ ( k+1+ √ k 2 +6k+5 2 , m + 1]. | Download Scientific Diagram](https://www.researchgate.net/publication/232735852/figure/fig2/AS:393330765647873@1470788770060/A-point-with-unique-b-expansion-for-b-k-1-k-2-6k-5-2-m-1.png)
A point with unique β-expansion for β ∈ ( k+1+ √ k 2 +6k+5 2 , m + 1]. | Download Scientific Diagram
![Circuit quantization with time-dependent magnetic fields for realistic geometries | npj Quantum Information Circuit quantization with time-dependent magnetic fields for realistic geometries | npj Quantum Information](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41534-022-00539-x/MediaObjects/41534_2022_539_Fig1_HTML.png)