FRIGHT-NIGHT AT MARWELL WILDLIFE

30/10/2013. By Jack Webb, Entertainments Reporter:

Prepare for a scare the next time you visit Marwell Wildlife in Winchester over the next month, as they are hosting a spooky Halloween event.

The animal enclosures are being given pumpkins as a festive treat, all carved by visitors of the zoo.

The night will have a host of interactive events to partake in and you'll be scared witless by spooky storytelling from the resident witch. To top things off, the event will feature a chilling ride on a ghost train that goes throughout the park

GOLDEN, EYE CATCHING EVENT

24/10/2012. By Jack Webb, Entertainments Reporter: The Naomi House charity in Winchester hosted a James Bond themed event to raise money for the hospice.

The event featured James Bond look-a-likes, cocktails and a great deal of Bond merchandise, ranging from books to posters to DVD's. The charity enlisted help from a number of volunteers; who would go from handing out drinks to standing outside the shop to promote the charity.

Karen Landor, the Donations Manager said "The Bond theme is something that is very eye-catching and topical, what with the new Bond film coming out the end of this week".

She went on to say that there would be many more events similar to this one, being held in the store, all to raise money for the charity.

Winchester Cathedral lighting up History

The history of Winchester is being re-told in the form of a multi-media musical.

The event manager Simon Barwood said “All the money raised will go towards buying an enhanced sound and lighting system for the Cathedral”.

Celebrities such as Dame Judi Dench, John Rhys-Davies and Alan Titchmarsh are all at Winchester Cathedral but in a more ghostly form – through a projector.

The Chronicles of Light will delve into the past of famous historical figures such as Jane Austen and St. Swithun; the event will run until the 28^th of October.

The search for truth

This blog post will mark my return to a constant flow of blogging (most probably :D) this will be mostly about the search for truth, which we are arguably many many many years from now until we know the full truth about something. Enjoy!

The search for truth: Science is the closest thing to a pure and accepted truth, despite the fact that the pursuit of science and knowledge has only clarified it in our minds that we are getting no closer to knowing a pure truth. This links in with paradigm shifts and how it was once universally believed that the world was flat and if you went to the edge it would be a waterfall that you could fall off of. Sounds sensible, right? The philosopher Kant believes that the real human condition is not mortality but instead to strive constantly for the absolute truth and to never find it.

Kant, Aristotle Bacon and Newton: Kant delves deeper into his argument of truth and how we know things by identifying two different types of “truth” these are:

Apriori – It is true by definition, you need no prior experience to know that a triangle has 3 sides; by looking you can tell.

Aposteriori – These are observations of the world that make facts, for example conducting surveys and so on.

Aristotle, Bacon and Newton all shared the belief that the world exists solely of things. They believed that for example if a tree falls in the woods then it still makes a sound regardless of if any is around to hear it because it is still a physical being even if we aren't perceiving it at that very moment, these objects are still physically there. This is linked in closely with Plato and his idea of forms and the Cave theory.

Bacon, Newton and other empiricists (known as mechanical materialists) thought that the cosmos is the sum total of many thing, some of the things are very small and remote, for example atoms or molecules and so therefore would be difficult to see, however they are still there as objects and have been there for ages without us ever being able to see them.

The idea of solipsism would be a main opposition to this theory insofar as the idea of solipsism is that everything is a dream, the only thing that is there or real is you and they say your life is just images in a dream that you have concocted. That is just wack.

From the ideas of Kant, Schopenhauer and Nietzsche we find the idea that to exist is not a predicate of any possible object, existence isn't “caused” by anything it is a needed precondition of perception or consciousness – this idea was a breakthrough during the scientific revolution.

Logic – Deduction vs. Induction. FIGHT: From Aristotle, we are brought about to the fight between deduction and induction. In the “Organon” this tells us that deduction preserves truth and respects authority above all else and this is perhaps the most characteristic idea of the Greco-Roman world; deduction depends on a series of indisputable axioms known to a group of philosopher Kings (Plato and his Republic) or known to a religious hierarchy of priests and this produced singular / particular truths from principles. An example of a pre-set deductive axiom would be all swans are white, this is a swan, you can see it is white. This is a very dogmatic view that does not allow for any inquiry or exceptions. The Organon and other scriptures at this time were seen as fact and no-one could say otherwise. Francis Bacon spoke out about how if an axiom is intrinsically false, then the whole thing is not true – for example with the swans, not all of them are white because black swans exist too. This means that if the deductive logic of an axiom is wrong it cannot be seen as fact.

Newton to Einstein: Newton’s laws of gravity state that the universe runs according to universal laws that are applied everywhere – you can find out everything with amalgamation of knowledge, for example every disease can be understood by constantly adding to the knowledge already gained – all things can be proven scientifically and Newtonian knowledge paved the way for such technological advancements as the steam age and so on.

The Vienna Circle 1922: This consisted of philosophers and this group of philosophers decided that they had to apply science to philosophy to find any kind of facts as philosophy by itself was just a waste of time and the way forward was science. The Verification principle, which was bore through the ideas of the logical positivists dictate that the way you verify something gives you the truth of any proposition – this means that if it cannot be verified then it cannot be claimed as true or false. However, Karl Popper stated that the verification principle itself cannot be verified as there is no way to actually verify it. Well I'm now at a loss as to how we find out if something is absolutely true – thanks a lot Karl.

Well there you have it, my notes on science and truths, hope you found is somewhat enlightening and enjoyed the post. If you read it that is, if not thanks for the views :)

Seminar Paper – The Rise of Science

The Rise of Science: The rise of science, otherwise known as the scientific revolution, took place in the early modern period, 17th century, following the Italian Renaissance where development in , physics, mathematics, biology and chemistry transformed views of society and nature. Historically, the rise of science began in Europe towards the end of the 16th century and continued well into the 18th century. Further along in the 18th century we come to what is known universally as the period of Enlightenment – however, the true start date of the scientific revolution are highly debated as people believe that the publications of Copernicus’s “On the Revolutions of the Heavenly Spheres” and then the publication by Vesalius’s “On the Fabric of the Human Body” are what really set the rise of science in motion which were both published in 1543. The creation of science wouldn't have been possible without the profound insight of 4 great men – Copernicus, Kepler, Galileo and Newton.

Copernicus: Copernicus’s book “On the Revolutions of the Heavenly Spheres” paved the way for modern astronomy. This is because his “heliocentric model”, with the Sun at the centre of the universe, demonstrated that the motions of celestial objects can be explained without putting Earth at rest in the centre of the universe. The heliocentric model depicts the earth and planets revolving around a stationary sun at the centre of the solar system. This theory was opposed by Geocentrism, which placed the Earth at the centre of the solar system. However, the idea of the earth and other planets revolving the sun had been the proposed thousands of years ago but received no real support from any of the ancient astronomers. Thanks to Copernicus’s additions to science in the 16^th Century, he managed to invent a way to predict this movement through his full mathematical model of the heliocentric system; this really set the groundwork which ultimately leads to the rise of the scientific method.

Despite the profound impact of Copernican theory, there arose many problems – the most prominent of these is the absence of a Stellar Parallax. A Parallax is a difference in the position of an object viewed along two different lines of sight; therefore a stellar parallax is the effect of a difference in sight on distant stars. It is a way to measure on an interstellar scale, and it can be used to determine the distance of Earth to another star, however this only become possible in the 19th century and this was still only in the case of the nearest stars, making it almost impossible to measure accurately, without the help of a telescope.

           

Kepler: Kepler was one of the first important astronomers to adopt Copernicus’s heliocentric theory and he was highly influenced by Pythagorean theory. Kepler was a German mathematician and astronomer, and is named a key figure in the scientific revolution. His most influential work was published eponymously; this was called the laws of planetary motion. In terms of astronomy, Kepler's three laws of planetary motion had a highly profound impact on science and astronomy, with his three scientific laws describing orbital motion, detailing the motion of planets revolving around the sun.

The first of Kepler’s laws was that the planets move in ellipses – it was generally understood by all astronomers that all celestial motions are circular and these are called epicycles. Therefore this means that the orbit of every planet is an ellipsis with the sun at one time or another. The second law details the varying velocity of the planet at different points of its orbit – I believe this explains how much the planets would move around the sun in their orbit and at what speeds. The third law was very important as it detailed and compared the movements of different planets while the first two laws were all about individual planets which had a mathematical formula to work it out – for example Russell states that “if R is the average distance of a planet from the sun and T is the length of its year, then R3 divided by T2 is the same for all the different planets”.

Galileo: Galileo is viewed as the greatest of the founders of modern observational astronomy, the father of modern physics and the father of modern science, he was only matched in credibility possibly by Newton – he very important as an astronomer and maybe even as the founder of dynamics. His work about dynamics allowed him to discover acceleration and this is defined as a change in velocity. Galileo believed that everyone, if they were left alone would continue to move in a straight line with uniform velocity.

Galileo was the first to discover the law of falling bodies, which is tied in closely with acceleration states that when you are free falling, the acceleration is constant, but the effects of wind resistance would hinder you slightly and that regardless of how heavy, tall or small the body is – it will always fall at the same speed; the acceleration would not change because of these aspects; this could only be fully proved with the invention of the air pump in 1654. Before the profound insight of Galileo, it was generally agreed that if something was larger, then it would fall faster solely on that aspect of it being bigger.

Furthermore, he delved into the study of projectiles – it was generally thought that if an object was fired horizontally it would travel like that for a while and then fall vertically; now Galileo detailed that this would not be the case, he stated that the horizontal velocity would remain constant in accordance with the law of inertia but vertical velocity would be added which ties in with the law of falling bodies The law of inertia explained issues that before Galileo, the Copernican system was unable to confront, for example if you are at the top of a tower and dropped a stone it would fall at the foot of the tower not to the east or west, you would think that if the earth is rotating then  during the fall it should move a small amount. This does not happen because the stone would retain the velocity of rotation which at the time of being released is being shared with the rest of the earth’s surface.

Newton: Isaac Newton built upon all the groundwork towards this scientific revolution that had been put in place by the other three great theorists, the work put in by Copernicus, Kepler and Galileo had set the stage for Newton to shine. Newton details in his work the three laws of motion. The first law – if an object experiences no force, then its velocity is always going to be constant – for example if the object is in rest, its velocity will be 0, or if it moves in a straight line with constant speed  then its velocity is going to be above zero. The second law states that the acceleration of a body is similar and directly proportional of the remaining force, called F, acting on the body, is in the direction of the net force and is inversely proportional to the mass of the body. Finally, the third law explains that when a body exerts force on a second body, the second body will exert force at the same time on the first body; this means that the force of the two bodies is equal in magnitude and opposing in direction.

Newton’s most important work is called “The Principia” and this is generally deemed to be one of the most important scientific books ever written. This is stated because it is independently detailed to the specific physical laws the work successfully. Newton is also highly credited and esteemed as he managed to build the first practical reflecting telescope and developed a theory of colour purely by observing that a prism decomposes white light into the many colours that form the visible spectrum. Newton also worked on celestial mechanics, this concerned gravitation and its effect on the orbits of planets. Here he greatly referenced Kepler's three laws of planetary motion. And if that wasn't enough, he went one step further and also formulated a law of cooling and greatly studied the speed of sound.

Francis Bacon: Francis Bacon has been named the creator and pioneer of empiricism. His works established inductive methodologies for scientific inquiry, which is known famously as the scientific method. The scientific method is the idea that you must always start a new theory from scratch - you must protect yourself from ideas from the past that might influence your ideas – which means it has to be original and it is a means of discovering new knowledge and a process of understanding.

Francis Bacon’s most notable work is called the “Novum Organum” which translates to “new instrument” or “New Organon” and this is an allusion to Aristotle’s work called the Organon, which was his treatise on logic and syllogism. Bacon details a new system of logic he believes to be superior to the outdated use of syllogism, he believed that you had to use the simple method of reduction and use inductive reasoning to gain knowledge.

This 'New Organon' had 4 key themes, the first of these being that knowledge is the source of human power, so we must harness and navigate through all knowledge. Secondly, there must be a clear separation of science and religion, as mixing if caused too many problems in the past. Thirdly the idea "new knowledge" must be thought up from scratch - these ideas or general theories must be then tested to see if they can prove them, or more accurately in later years falsify them. And finally science is dynamic - you must always admit to failure when you encounter it as opposed to the archaic way of never admitting defeat or failure, this is the way that you learn.