Can You Play Cricket on Mars? E-Book

CAN YOU PLAY

CRICKETON MARS?

CAN YOU PLAY

CRICKETON MARS?

AND OTHER SCIENTIFICQUESTIONS ANSWERED

PATRICK MOORE

First published in 2008

The History Press

The Mill, Brimscombe Port

Stroud, Gloucestershire, GL5 2QG

www.thehistorypress.co.uk

This ebook edition first published in 2012

All rights reserved

© Patrick Moore, 2008, 2012

The right of Patrick Moore, to be identified as the Author of this work has been asserted in accordance with the Copyrights, Designs and Patents Act 1988.

This ebook is copyright material and must not be copied, reproduced, transferred, distributed, leased, licensed or publicly performed or used in any way except as specifically permitted in writing by the publishers, as allowed under the terms and conditions under which it was purchased or as strictly permitted by applicable copyright law. Any unauthorised distribution or use of this text may be a direct infringement of the author’s and publisher’s rights, and those responsible may be liable in law accordingly.

EPUB ISBN 978 0 7524 6941 6

MOBI ISBN 978 0 7524 6942 3

Original typesetting by The History Press

Contents

Introduction

If I want to have an astronomical telescope, could I make one?

How far away is the Moon? Is it the nearest body in the sky?

What is a Syzygy, and where can I find one?

Was the Moon ever part of the Earth?

Are there many legends about the Moon?

Is there a dark side to the Moon?

What is Harvest Moon, and do other full moons have names?

What is the meaning behind the expression ‘once in a blue moon’ and what exactly is a blue moon?

I always think that a full moon looks almost as bright as the Sun. Is this true?

Is our weather affected by the Moon?

I have sometimes seen a bright ring around the Moon, some distance from it. What is this and does the Moon ever cause rainbows?

I have heard that the phases of the Moon affect human behaviour. Is this true?

Is an eclipse of the Moon very different from an eclipse of the Sun?

Why has the Moon no air –and did it ever have any?

Is the Moon hot inside?

How were the Moon’s craters formed?

Who named the Moon’s craters?

If there are so many craters on the Moon, why are there not so many on the Earth?

Is it true that you will find Hell on the Moon?

Do volcanic eruptions happen on the Moon?

Is it true that the first really good map of the Moon was drawn by a German banker?

Is it true that a lunar crater vanished?

Could I ride a bicycle on the Moon?

If I go to the Moon, will I find it easy to climb the lunar mountains?

Is the Moon’s far side much the same as the side we see from Earth?

Is it true that a man once tried to reach the Moon by using rockets fixed to his body?

How many men have walked on the Moon?

Could I grow marigolds on the Moon?

Will there ever be cities on the Moon?

When we reach the Moon, will we able to fly around from one place to another?

I am told that we owe our very existence to the Moon. Is this true?

Does the Earth have a second Moon?

Is the Moon moving away from the Earth?

When do you think that we will set up the first proper lunar base?

Who first saw Mercury, and who named it?

Can you ever see Mercury in the middle of the night?

Mercury is closer to the Sun than Venus –but the surface of Venus is the hotter of the two. Why?

Could I live on Mercury?

Is there any life on Mercury?

When will I be able to go to Mercury?

If I could go to Mercury, would I be able to see the Earth?

Is there a spider on Mercury?

Can there be a planet closer to the Sun than Mercury?

Why was Venus given its name?

Why is Venus so bright, and can I see it in the daytime?

People often think that Venus may have been the Star of Bethlehem. Do you think that this is true?

Is Venus called ‘the Earth’s twin’?

If Venus is so like the Earth in size, why are conditions there so different?

Can Venus ever pass in front of the Sun?

Does Venus have a moon like ours?

Isn’t there a story about Napoleon and the planet Venus?

Is Venus closer to us than Mars?

How long is a ‘day’ on Venus?

Are there lands and seas on Venus?

Can I go for a walk on Venus?

Could I climb the mountains of Venus?

If I go to Venus, will I see dinosaurs?

Why is Mars red?

Are there any seas on Mars?

I have heard about the canals on Mars. Do they really exist?

What will the Earth look like from Mars?

If I stand on Mars and shout, will I be heard?

Will my magnetic compass work on Mars?

Do Marsquakes occur – and if so, would they be strong enough to damage any Martian bases we set up?

Could birds fly on Mars?

Does Mars have a pole star like ours?

If I am on Mars, in the open air, can I boil a kettle of water?

Could I go skating on Mars?

Are there any polar bears on Mars?

On Mars, do the polar ice-caps melt in the summer?

I have heard that Bigfoot has been seen on Mars. Is this true?

If we found living things on Mars, would it be safe to bring them to the Earth?

Would Martians be unfriendly?

When was the first spacecraft sent to Mars?

I have heard that someone once tried to send a telegram to Mars. Is this true?

Has anyone heard radio signals from the inhabitants of Mars?

If I go to Mars, will I be able to see shooting stars?

If we live on Mars, will our descendants be the same as us?

I know that Mars has two moons. If you were standing on Mars, would they look as bright as our Moon does to us?

What are Phobos and Deimos like?

Why are the moons of Mars called Phobos and Deimos?

If I stood on Deimos, would I be able to jump out into space?

What would happen if a comet hit Mars?

We sometimes see Venus and Mercury pass in transit across the face of the Sun. If I could go to Mars, would I ever be able to see a transit of the Earth?

Can we ever make Mars really like Earth?

Can you play cricket on Mars?

Why did astronomers originally think that there ought to be a planet whose orbit lay between those of Mars and Jupiter?

Is Bode’s Law really valid?

Has anybody ever been to an asteroid?

Has a spacecraft ever landed on an asteroid and then taken off again?

Is there a coal-black planet in the Solar System?

Do asteroids ever collide with each other? If so, would it be dangerous to go into the asteroid zone?

Is there a belt of asteroids closer to the Sun than the orbit of Mercury?

If I Ianded on an asteroid, could I walk around?

I know that the planets are named after mythological gods – Mars, Venus, Jupiter, Saturn, Mercury, Neptune –but what about Uranus?

Is Jupiter’s red spot a volcano in eruption?

Was Saturn ever thought to be a miniature sun?

Titan has seas on its surface. Could fish live in them?

Is it true that one King of England was deeply interested in astronomy?

Why did astronomers once think that there were no planets beyond Saturn?

How long is a year on Uranus?

Could I go for a walk on Uranus?

I know that Jupiter is the largest planet in the Solar System, but which is the smallest? Is it Pluto?

Could I go for a walk on a comet?

When will I next see Halley’s Comet with the naked eye?

Could I buy a bottle of Comet Wine?

Can a comet simply vanish without trace, and for no apparent reason?

When will I next be able to see Comet Arend-Roland, which was bright in April 1957?

Have comets ever been seen to break up?

Every August we see shooting stars – the Perseid shower. If I go out to watch them, am I in any danger of being hit by one?

What is the ‘false dawn’?

Does the Sun have any other name?

Is it true that people were once forbidden to believe that the Sun was the centre of the Solar System?

Do we have summer when the Earth is at its closest to the Sun?

I know that light travels very quickly. How long does it take to travel from the Sun to the Earth?

Why is it so dangerous to look at the Sun through a telescope?

All this being so, how can we use a telescope for solar work?

When the Sun is low down, is it safe to look straight at it through binoculars?

Is the Sun burning? If not, how does it shine?

Does the Sun have a solid surface underneath a top layer of hot gas?

If I could stand on the Sun, would I feel very heavy?

Does the Sun spin round on its axis, in the same way as the Earth?

Does the Sun have air like ours?

What are the dark lines in the spectrum of the Sun, and why are they called Fraunhofer lines?

Are sunspots really raised spots on the Sun?

But what exactly are sunspots, and how are they produced?

Have there been long periods when there were almost no sunspots? If so, did this affect the Earth?

I have heard that there was a famous astronomer who believed that there were people living inside the Sun. Surely this cannot be true?

At a total solar eclipse, the Moon just covers the Sun. The Sun is much larger than the Moon, but in our sky they appear the same size. Is there any special reason for this?

On 11 August 1999 there was a total eclipse of the Sun. I went to Falmouth, in Cornwall, to observe it, but I was clouded out. Would I have been luckier if I had stayed at my home, Selsey in Sussex?

Why are eclipses of the Sun so much less common than those of the Moon?

If I look at the Sun through my telescope, will I be able to watch the outbursts called flares?

Does the Sun lie in the middle of the Milky Way Galaxy, and what is a cosmic year?

Is it possible that there is a planet on the far side of the Sun, moving in the same orbit as the Earth, so that we can never see it?

Will the Sun go on shining for ever?

Can we ever build a gun to fire supplies from the Earth to the Moon?

Could I get into a spacecraft and fly from here to Alpha Centauri?

Can there be dinosaurs on other planets?

If an alien landed here, would I be able to understand him and talk to him?

There are many wars going on at the present time. Do you think there may be planets on which all life has been wiped out in this way?

We are sending radio messages into space, hoping that someone will answer. Some astronomers call this dangerous. Do you agree?

Children learn about science from a very early age – astronomy in particular. But when did it begin, and who were the first great astronomers?

Did you ever know Sir Arthur Clarke, the man who predicted communications satellites?

What happened to the first Russian space station, Mir?

When will Earthmen be able to travel to other Solar Systems?

Have there been any astronomers who have been universally disliked?

Do all stars have their own names?

I was born on 4 March, and I am told that my ruling star sign is Pisces. What does this mean, and is it important?

Why are the stars divided into constellations, and who named them?

Could I make up a constellation, and name it?

Which are the largest and smallest constellations in the sky? And why aren’t they all the same size?

Do any of the constellations look anything like the objects after which they are named?

The Centaur is a bright constellation in the southern sky. What was a centaur? Was it a dinosaur?

If I go to Australia, will I be able to see the Pole Star?

If I look at the stars on a clear night, I see a few which look red. Why is this, and which are the stars?

Do stars ever change colour?

If I go outdoors tonight, will I be able to see the star known as the ‘Wonderful Star’?

Have I a chance of seeing a supernova in our Galaxy?

I know that the nearest star is Alpha Centauri, just over four light-years away, but can there be any small stars which are closer than that?

Why is the star Alpha Centauri so famous –and where can I see it in the sky?

If I could manage to take a trip to Alpha Centauri, would I be able to see the Earth?

Is it true that there is a star named Beetlejuice?

If I went out to a planet in the system of Deneb, would I be able to see the Sun and the Earth?

Is there an owl in the sky?

Is there any danger than another star will move into the Solar System? If this did happen, what would be the effects on the Earth and the Sun?

If I could go to a planet moving round a planet in the Andromeda Spiral, would I be able to see the Sun?

Have we ever transmitted a radio message to a star thousands of light-years away?

Will our Galaxy ever collide with another – and if so, will we be able to watch?

If I could be around when the Andromeda Galaxy collides with the Milky Way, what would I see?

What is dark matter, and who discovered it?

Is it true that the cosmic microwave background radiation was once thought to be due to pigeons?

At the moment of the Big Bang when the universe was created, was there really a loud bang?

Will the universe ever come to an end?

INTRODUCTION

This is a book of ‘question and answer’. I will ask the questions, and do my best to give the answers. But at the very outset, I think it may be useful to give a brief rundown of the various components of the universe, introducing terms which will crop up time and time again.

The Earth on which we live is a planet, moving round the Sun in a period of one year. It is not the only one in the Sun’s family; there are seven others, and these are the main members of the Solar System. A planet has no light of its own, and shines only by reflected sunlight. Most of the planets have secondary bodies or satellites moving round them; we have one satellite, the Moon, which also shines by reflected sunlight. The largest planets, Jupiter and Saturn, have over sixty satellites each, though most of them are very small.

Reckoning outward from the Sun, we come first to rocky, comparatively small planets: Mercury, Venus, the Earth and Mars. Then comes a wide gap, in which move thousands of small bodies known as asteroids. Beyond the asteroid belt come the four giant planets Jupiter, Saturn, Uranus and Neptune, with their satellite families; the giants are not rocky, but have gaseous surfaces. Beyond the path (orbit) of Neptune lies another swarm of smaller bodies, making up the Kuiper Belt; the largest members of which are Eris and Pluto. Pluto, the first member of the swarm to be discovered (in 1930) was long classed as a planet, but has now been officially relegated to the status of an ordinary Kuiper Belt Object or KBO.

Comets also move round the Sun, but while the orbits of the planets are reasonably circular those of most comets are very elongated. At its closest point to the Sun (perihelion) a comet is very close to the solar surface; at its furthest (aphelion) it may be far beyond Neptune and the Kuiper Belt. A comet is not a substantial, solid body like a planet; the head, usually only a few miles across, is composed of ice and rubble, sometimes likened to ‘a dirty iceball’. Extending from it there may be a tail or tails, made up of dust particles or very tenuous gas. As a comet moves it leaves a dusty trail behind it; if one of these particles enters the Earth’s atmosphere it will be heated by friction against the air particles and will burn up, producing a shooting star or meteor. A meteor will burn away at around forty miles above sea level, but a larger body may survive to reach the ground, and is then called a meteorite. Note that meteorites come from the asteroid belt, and are not associated with either comets or shooting star meteors.

The Sun is a star, shining by its own power; the surface is hot (over 5,000 degrees celsius) and the core has a temperature of about fifteen million degrees. The Sun is not burning in the manner of a coal fire; its energy is due to nuclear reactions going on deep inside it. It has been said that it is a vast, controlled atom bomb! It is indeed vast when compared with our world; you could cram a million Earths inside the Sun and still have room to spare. It is ninety-three million miles away, but in our sky it looks the same size as the Moon, which is much smaller than the Earth but is only about a quarter of a million miles from us.

Every star is a sun, shining by its own light. Some stars are less powerful than the Sun but we also know of stars which have well over a million times the Sun’s luminosity. They look so much smaller and fainter than the Sun only because they are so much further away; the nearest star beyond the Sun is roughly twenty-four million million miles away. For distances of this kind, units such as the mile or the kilometre are inconveniently short (just as it would be clumsy to give the distance between London and Manchester in inches) and a different unit is preferable. Light does not travel instantaneously; it flashes along at 186,000 miles per second, so that in one year it crosses almost six million million miles. This distance is known as the light-year. The nearest star beyond the Sun is just over four light-years away.

The stars are so far away that their individual or proper motions are too slight to be noticed except over very long periods; the star patterns or constellations look virtually the same now as they must have done in the time of the Trojan War – it is only our near neighbours, the members of the Solar System, that move perceptibly from night to night. The constellations have been given attractive names, many of them mythological – Orion, Cassiopeia, Perseus and so on – but the stars in a constellation lie at different distances from us, and have no real connection with each other; we are dealing with nothing more than a line of sight, and the names mean nothing at all. We use the old Greek system, but the ancient Chinese and Egyptians used different constellation patterns and names.

The Sun is one of about 100,000 million suns making up our star system or Galaxy. Many of the stars have planets of their own, though as yet we have been unable to see them directly (except in a couple of rather dubious cases), and have had to locate them by indirect methods. The Galaxy is a flattened system, measuring 100,000 light-years from one side to the other; the Sun lies near the main plane, about 26,000 light-years from the centre. When we look along the main plane we see many stars in the same direction, and this causes the appearance of the Milky Way. The stars in the Milky Way are not really crowded together, and are in no danger of colliding; we are merely dealing with another line of sight effect.

As well as its individual stars, the Galaxy contains huge clouds of gas and dust called nebulae, inside which new stars are being formed from interstellar material. If a nebula is illuminated by a convenient star, it shines; if not, it is a dark mass detectable because it blocks the light from objects beyond it.

Our Galaxy is not the only one; we can see others – millions, hundreds of millions or even thousands of millions of light years from us. Galaxies tend to form groups or clusters; the Sun is a member of one such group (the Local Group). Each group of galaxies is receding from each other group, so that the entire universe is expanding – and the faster away they are, the faster they are receding. With modern instruments we can probe out to more than thirteen thousand million light-years.

It is now believed that the universe came into being 13.7 thousand million years ago; this is known (misleadingly) as the Big Bang theory, but we have to admit that we are reduced to little more than speculation.

Planets, satellites, stars, nebulae, galaxies . . . This is a very rough outline of the make-up of the universe, but I hope that it is sufficient for the moment. Now let us begin our questions and answers.

If I want to have an astronomical telescope, could I make one?

You certainly could, and a few years ago, telescope making was very popular.

Telescopes, as you know, are of two main types: refractors and reflectors. A refractor collects its light by means of a lens known as an object glass, while a reflector uses a mirror. Making an object glass is really a task for the professional, but making a mirror is much easier, so that almost all home-made telescopes are reflectors. Most of these are Newtonian, because the optical system was first worked out by Sir Isaac Newton, who demonstrated his original telescope to the Royal Society in 1671. It had a mirror one inch across, but modern amateurs have made mirrors a great deal larger than this – up to several feet across.

In a Newtonian, the light from the target object passes down an open tube, and hits the main mirror (the speculum) at the lower end. The speculum is curved, and sends the light back up the tube on to a smaller flat mirror, placed at an angle of forty-five degrees. This flat mirror directs the rays into the side of the tube, where they are brought to focus and the image is enlarged by an eyepiece, which is essentially a magnifying glass. In a Newtonian, the observer looks into the tube rather than up it. The heart of the telescope is the speculum, which can be spherical but is much more effective if paraboloidal.

The trick here is to take two glass ‘blanks’ and rub one against the other, so that one becomes convex and the other – destined to be the mirror – is concave. There is a special way of doing this; it takes a long time, and there are any number of things that can go wrong, but with sufficient patience it can be done. Most newcomers begin with six inch blanks; the flat and eyepiece can be bought at reasonable cost (actually you will want three eyepieces, one low powered, one medium, and one high). The rest of the telescope can be made by anyone who is reasonably ‘handy’; there need not even be a solid tube, and many reflectors are skeletons. After all, the only function of the tube is to hold the optical components in the right positions.

Until very recently telescope making remained popular, because to buy even a reflector cost a great deal of money (and good refractors are always more expensive still). I used to advise against buying a reflector with a mirror less than six inches across, or a refractor with an object-glass with a diameter less than four inches – and a really useful telescope meant spending at least £300. The situation has changed; prices have come down, and it is possible to buy a small but adequate telescope for under £100. Of course it will be limited, but it will be much better than nothing at all, and home-made telescopes are becoming rather rare. Try your hand by all means, but be prepared for problems . . .

Incidentally, do not despise binoculars. They cannot provide high magnification, but for some branches of observation they are surprisingly useful.

How far away is the Moon? Is it the nearest body in the sky?

On average, the Moon is 238,000 miles away – rather less than a quarter of a million miles. This is by far the nearest natural celestial object, though of course we have launched many artificial satellites which are much closer. But the Moon’s orbit is not a perfect circle; it is an ellipse, and the distance from us ranges between 252,000 miles and only 223,000 miles. At its closest it is said to be at perigee, and at its furthest it is at apogee.

The Moon is the only natural body which moves round the Earth. To be accurate, the Earth and Moon move together round their common centre of gravity, or barycentre, much as the bells of a dumbbell will do when you twist them by the bar joining them. However, the Earth is eighty-one times as massive as the Moon, and the barycentre lies deep inside the Earth’s globe, so that the simple statement that ‘the Moon goes round the Earth’ is good enough for most purposes. The Moon takes 27.3 days to make one full circuit.

What is a Syzygy, and where can I find one?

You can’t! This is the name given to the position of the Moon when new or full, so that the Earth, the Sun and the Moon are then lined up. Hideous word – it is pronounced ‘sizzer-ji’.

Was the Moon ever part of the Earth?

Quite probably, but nobody is really sure how the Moon was formed, and all sorts of theories have been proposed.

We do have some facts to guide us; for example, we know that the Moon and the Earth are the same age – roughly 4.6 thousand million years. The Moon’s mean density is lower than that of the Earth; the surface rocks are of the same general type, but the Moon has a smaller, heavy iron-rich core (remember that the Moon’s diameter is only a little more than one quarter of the Earth’s). However, the Moon is at least comparable with the Ear th, and it is often said that the Earth-Moon system should be regarded as a double planet rather than as a planet and a satellite.

We are confident that the Earth is built up from the material of the ‘solar nebula’, a cloud of dust and gas surrounding the youthful Sun. It seems reasonable to think that the Moon condensed in the same way, at the same time and in the same region of the nebula, and this idea still has wide support, but there are various mathematical objections to it, because it would require a very special set of circumstances. Moreover it is not easy to explain the marked difference in density between the two globes. Alternatively, could the Moon have been formed in a different part of the nebula and later captured by the gravitational pull of the Earth? Again this sounds reasonable, but the mathematical difficulties are even greater.

A completely different scenario was given by George Darwin (son of the great naturalist Charles Darwin) in the latter part of the nineteenth century. Darwin pictured a combined Earth-Moon body which condensed from the nebula, and was initially hot and viscous. It was rotating, as do all bodies, but the spin was so rapid that the mass became unstable. Part of it was thrown off to build up the Moon, while the larger remaining part became the Earth. Again there seemed no obvious objections, and Darwin’s theory was accepted for many years, but it simply does not work. A huge portion of material could not be hurled off in this way – and even if it could, there is no chance that a globe such as the Moon would be the result.

Today many astronomers – perhaps most – favour what is called the ‘giant impact’ theory. The original Earth-Moon body was hit by a massive impactor, perhaps almost the size of Mars. The cores of the two bodies merged, and débris was thrown around, but could not break completely free, so that after a comparatively short time it accreted to produce the Moon. At least this would account for the density difference, since the Moon would have built up from the outer, less substantial parts of the proto-Earth, and the theory seems to fit the facts better than the others, even though it does not solve all the problems.

En passant, it is worth recalling a comment made by Harold Urey, a Nobel laureate and one of the twentieth century’s leading geophysists. According to Urey, because all theories of the Moon’s origin are so unconvincing, science has proved that the Moon does not exist!

Are there many legends about the Moon?

Legends come from every country, and some of them are delightful. I particularly like a story which comes from China. A herd of elephants made a habit of drinking at the Moon Lake, and sometimes accidentally trampled upon the local hares. This would not do at all, but the chief hare, who was extremely clever, had the answer. He told the elephants that they were offending the Moon Goddess by disturbing her reflection in the water. The elephants agreed that this was most unwise, and made a hasty departure!

To the people of Van, in Turkey, the Moon was a young bachelor who was engaged to the Sun. Originally the Moon had shone in the daytime and the Sun at night, but the Sun, being a girl, was afraid of the dark, and so they changed places. (N.B. Please, no comments from politically-correct fanatics!)

Is there a dark side to the Moon?

Yes. Because the Moon is lit up by the Sun, one hemisphere is always bright, having its daytime, while the other hemisphere is dark, having its period of night. The Moon has a rotation period of 27.3 days (much longer than our own world’s twenty-four hours!), so that a day or night on the Moon is equal to about a fortnight on Earth.

It is quite wrong to say that half of the Moon is permanently dark. It is true that the Moon always keeps the same face turned towards the Earth, but it does not always keep the same face towards the Sun, so that the day and night conditions are the same everywhere – except that on the ‘far side’ the nights would be darker, because the Earth would never be above the horizon.

What is Harvest Moon, and do other full moons have names?

A Harvest Moon

In the northern hemisphere, the full moon closest to the autumnal equinox (around 22 September) is called Harvest Moon because the ecliptic then makes its shallowest angle with the horizon, and the retardation – the time-lapse between moonrise on successive nights – is at its minimum, and may be no more than fifteen minutes, although for most of the year it is closer to half an hour. The diagram illustrates what is meant; remember that from night to night the Moon covers the same distance along the ecliptic. It was held that this was useful for farmers gathering in their crops. A Harvest Moon looks the same as any other full moon – and certainly does not look larger than usual. The next full moon is known as Hunter’s Moon. Other full moon names are seldom used. They are:

January

Winter Moon, Wolf Moon

February

Snow Moon, Hunger Moon

March

Lantern Moon, Crow Moon

April

Egg Moon, Planter’s Moon

May

Flower Moon, Milk Moon

June

Rose Moon, Strawberry Moon

July

Thunder Moon, Hay Moon

August

Grain Moon, Green Corn Moon

September

Harvest Moon, Fruit Moon

October

Hunter’s Moon, Falling Leaves Moon

November