Showing posts with label Sci Phi Show. Show all posts
Showing posts with label Sci Phi Show. Show all posts

Friday, 28 January 2011

Lying about time — relaunch of the Sci Phi Show

Recently I was pleased to discover that Jason Rennie has relaunched the Sci Phi Show — a podcast looking at philosophy and science fiction. The first of Jason's new episodes dealt with lying — what it is and whether it is always morally wrong to lie. He cited a couple of definitions from the Stanford Encyclopedia of Philosophy:
  1. To make a false statement with the intention to deceive.
  2. To make an assertion that is believed to be false to some audience with the intention to deceive the audience about the content of that assertion.
Jason explained the four conditions that need to apply to the second definition in order to make it clear: the Statement condition, the Untruthfulness condition, the Addressee condition and the Intention to deceive addressee condition. This second definition is the more precise and therefore more useful one, but Jason demonstrated in his subsequent discussion that use of the term "lie" often implies a degree of wrongness. (The Stanford definition explores some of these issues.)

Whether you consider a lie to be more or less morally wrong depends on your basis for morality. If you base it on an inviolable precept such as, "Thou shalt not bear false witness," you might find little leeway to consider the philosophical niceties. As I see it, the general prohibition on lying is to do with notions of trust and the reliability of communications. It may be perfectly moral to lie in certain specific circumstances (Jason suggested several), but if lying became the norm the fabric of society would quickly unravel.

Jason's second show was about time travel, and began with a discussion of definitions of time. Defining time appears to be fraught with impossibilities; for instance, what's the answer to the question, "How long can a condition of no change persist?" It depends whether you think time is something that passes, irrespective of events that occur. Note that of all our many ways of measuring time — to astonishing accuracy — none of them is objectively measuring the passage of time, but merely counting the occurrence of extremely regular events (although that raises the question of how we know these events are "regular").

However, this is pretty simple stuff in comparison with Jason's overview of alternative theories of time and his explanation of time-travel paradoxes — highly recommended, if you don't mind your brain turning to spaghetti.