In order to get more accurate results, our search has the following Google-Type search functionality:
If you use '+' in front of a word, then that word will be present in the search results.
ex: Harry +Potter will return results with the word 'Potter'.
If you use '-' in front of a word, then that word will be absent in the search results.
ex: Harry -Potter will return results without the word 'Potter'.
If you use 'AND' between two words, then both of those words will be present in the search results.
ex: Harry AND Potter will return results with both 'Harry' and 'Potter'.
If you use 'OR' between two words, then bth of those words may or may not be present in the search results.
ex: Harry OR Potter will return results with just 'Harry', results with just 'Potter' and results with both 'Harry' and 'Potter'.
If you use 'NOT' before a word, then that word will be absent in the search results.
ex: Harry NOT Potter will return results without the word 'Potter'.
Placing '""' around words will perform a phrase search. The search results will contain those words in that order.
ex: "Harry Potter" will return any results with 'Harry Potter' in them, but not 'Potter Harry'.
Using '*' in a word will perform a wildcard search. The '*' signifies any number of characters. Searches can not start with a wildcard.
ex: Pot*er will return results with words starting with 'Pot' and ending in 'er'. In this case, 'Potter' will be a match.
198(Ht mm) 129(Wdt mm) 304
Knowledge is power... A landmark new series from a prize-winning scientist and communicator In this major trilogy, Sean Carroll opens up the world of physics and shows that you don't necessarily need a science degree to gain a deeper insight into the workings of the universe. Starting with the ideas that revolutionised our view of nature, Space, Time and Motion poses deep questions about the cosmos, guiding us through classical physics from Euclid and Galileo to Newton and Einstein. Carroll investigates how a twin could be seven years older than her brother, and demonstrates why it's easier than you might think for a drifting astronaut to get back to the safety of the space station. These are the laws of physics as you've never understood them before.