The document provides media queries for different standard devices including smartphones in both portrait and landscape, iPads in both portrait and landscape, desktops and laptops, large screens, and the iPhone 4. Each media query specifies the minimum and maximum width parameters to target different screen sizes and orientations and allows for custom styles to be applied.
Mobile is a part of our day to life, however technology has enabled the invention of some of the most unique cell-phones ever seen. Check out the most unique mobiles of the world in this deck. They are sure to amaze you!
Do you believe that 'Cellphones Cause Brain Cancer?' If yes, then its time to demystify your myth. Check out the article featured in NYTimes.com by Siddhartha Mukherjee (Assistant Professor of medicine in the
division of medical oncology at Columbia University).
Data points covered in the workshop conducted in Kochi, on the Govt. of India guidelines on installation, and safety regime of Telecom Towers and Mobile phones.
Cell Phone and Cell Tower Radiation NormsNeha Kumar
Better Radiation Norms for Cell Phones/Cell Towers - Prof. Girish Kumar , IIT Bombay
Presentation at Bombay Telephone User’s Association ( BTUA ), Mumbai on Jan 2010 - Consumer Awareness and Radiation Health Hazards from cell phones and mobile towers - Myth or Reality
The Indian government has adopted the ICNIRP guidlenes for cell tower radiation exposure which are the worst in the world. Several health effects have been reported much below these ICNIRP guidelines.
The ICNIRP state that these guidelines are only for short term exposure and considers only thermal effects and does not take account non thermal effects which are more harmful and occurs much below thermal effects. According to our calculations the ICNIRP guidleines implies that a human body can be safely kept in a microwave oven for 1166 secs = 19 minutes per day!! (see presentation for calculations)
In USA, max. SAR limit for cell phones is 1.6W/Kg which is for 6 minutes. It has a safety margin of 3 to 4, so a person should not use cell phone for more than 18 to 24 minutes per day. This information is not commonly given to users.
In Usha Kiran Building, Worli four cancer cases were reported until now from cell phone towers on the opposite building at about 50 meter. However, in the event one of the residents mentioned that the number of cancer cases had risen to six now and these cases were reported on the 5th, 6th (2 cases), 7th, 8th and 10th floor, all these houses are in direct line of sight from the tower installed on the opposite building on the 7th Floor.
Besides human health, electromagnetic radiation has also effected the environment, birds, animals, plants and fruit production.
Other countries based on the cases reported and their studies have adopted much lower radiation norms to protect their citizens.
All this calls for immediate need to adopt strict and lower radiation norms.
In the end, some suggestions have been given which can be adopted as possible solutions to minimize the risk of EMF radiation from cell towers.
Mobile is a part of our day to life, however technology has enabled the invention of some of the most unique cell-phones ever seen. Check out the most unique mobiles of the world in this deck. They are sure to amaze you!
Do you believe that 'Cellphones Cause Brain Cancer?' If yes, then its time to demystify your myth. Check out the article featured in NYTimes.com by Siddhartha Mukherjee (Assistant Professor of medicine in the
division of medical oncology at Columbia University).
Data points covered in the workshop conducted in Kochi, on the Govt. of India guidelines on installation, and safety regime of Telecom Towers and Mobile phones.
Cell Phone and Cell Tower Radiation NormsNeha Kumar
Better Radiation Norms for Cell Phones/Cell Towers - Prof. Girish Kumar , IIT Bombay
Presentation at Bombay Telephone User’s Association ( BTUA ), Mumbai on Jan 2010 - Consumer Awareness and Radiation Health Hazards from cell phones and mobile towers - Myth or Reality
The Indian government has adopted the ICNIRP guidlenes for cell tower radiation exposure which are the worst in the world. Several health effects have been reported much below these ICNIRP guidelines.
The ICNIRP state that these guidelines are only for short term exposure and considers only thermal effects and does not take account non thermal effects which are more harmful and occurs much below thermal effects. According to our calculations the ICNIRP guidleines implies that a human body can be safely kept in a microwave oven for 1166 secs = 19 minutes per day!! (see presentation for calculations)
In USA, max. SAR limit for cell phones is 1.6W/Kg which is for 6 minutes. It has a safety margin of 3 to 4, so a person should not use cell phone for more than 18 to 24 minutes per day. This information is not commonly given to users.
In Usha Kiran Building, Worli four cancer cases were reported until now from cell phone towers on the opposite building at about 50 meter. However, in the event one of the residents mentioned that the number of cancer cases had risen to six now and these cases were reported on the 5th, 6th (2 cases), 7th, 8th and 10th floor, all these houses are in direct line of sight from the tower installed on the opposite building on the 7th Floor.
Besides human health, electromagnetic radiation has also effected the environment, birds, animals, plants and fruit production.
Other countries based on the cases reported and their studies have adopted much lower radiation norms to protect their citizens.
All this calls for immediate need to adopt strict and lower radiation norms.
In the end, some suggestions have been given which can be adopted as possible solutions to minimize the risk of EMF radiation from cell towers.
Intro to @viewport & other new Responsive Web Design CSS featuresAndreas Bovens
From meta viewport to @viewport and from device-pixel-ratio to the resolution media query: various responsive design hooks are undergoing standardization, allowing for future-proof sites that work well in different contexts. In addition, new CSS features like object-fit, relative length units and so on are increasingly supported by browsers as well, and allow for more versatile responsive design solutions. In my talk, I will look at these features and explain how they can be used in websites today.
Visitors to your site are increasingly less likely to have a traditional desktop experience. There’s a widening diversity of browsers and devices as the mobile, netbook and tablet market explodes. Can your designs handle this new world? Learn how CSS3 can be used to create a responsive design that adapts well to your visitors regardless of how large or small their screen sizes are. We’ll cover why you need to design your sites to work on a widening array of devices and screen sizes. There will be examples and coding. In particular, we’ll look at implementing a fluid grid and flexible images and using media queries to create a great experience for all visitors.
With great power, comes great responsive-ability web design.
Responsive web design (RWD) will be demystified. Believe it or not, it's more than just media queries, although those will be discussed. It starts with proper UI design and application architecture, and then the dive into CSS - but not too deep! You don't have to be an expert to do RWD, but it helps to have some idea of what you are doing.
Introduction to Responsive Web Design http://tinyurl.com/9ldo4c6
Includes a sample project built from scratch in Node.js using LESS available on Github
Responsive design is a combination of techniques aiming to create interfaces able to adapt to a wide range of devices, optimising the user experience in each of them but using the same code-base. But responsive design is not just about technology, as it also requires a different way of thinking and planning the development of interfaces.
Intro to @viewport & other new Responsive Web Design CSS featuresAndreas Bovens
From meta viewport to @viewport and from device-pixel-ratio to the resolution media query: various responsive design hooks are undergoing standardization, allowing for future-proof sites that work well in different contexts. In addition, new CSS features like object-fit, relative length units and so on are increasingly supported by browsers as well, and allow for more versatile responsive design solutions. In my talk, I will look at these features and explain how they can be used in websites today.
Visitors to your site are increasingly less likely to have a traditional desktop experience. There’s a widening diversity of browsers and devices as the mobile, netbook and tablet market explodes. Can your designs handle this new world? Learn how CSS3 can be used to create a responsive design that adapts well to your visitors regardless of how large or small their screen sizes are. We’ll cover why you need to design your sites to work on a widening array of devices and screen sizes. There will be examples and coding. In particular, we’ll look at implementing a fluid grid and flexible images and using media queries to create a great experience for all visitors.
With great power, comes great responsive-ability web design.
Responsive web design (RWD) will be demystified. Believe it or not, it's more than just media queries, although those will be discussed. It starts with proper UI design and application architecture, and then the dive into CSS - but not too deep! You don't have to be an expert to do RWD, but it helps to have some idea of what you are doing.
Introduction to Responsive Web Design http://tinyurl.com/9ldo4c6
Includes a sample project built from scratch in Node.js using LESS available on Github
Responsive design is a combination of techniques aiming to create interfaces able to adapt to a wide range of devices, optimising the user experience in each of them but using the same code-base. But responsive design is not just about technology, as it also requires a different way of thinking and planning the development of interfaces.