Tag Archives: science fiction

Poking head up for a moment

So, turns out that the birth of a new baby does reduce the amount of time available to other activities.  With the baby turning 2 years old soon, and starting to do things on her own, I might be able to get back to writing here again in a while.

So, what have I been up to?  My stack of books to be read continues to grow much more quickly than I can possibly read them.  Right now, I’m reading [amazon_link asins=’B00842H6HQ’ template=’ProductCarousel’ store=’winte0db-20′ marketplace=’CA’ link_id=’978552b9-52d8-11e7-b016-9b62e35134b9′]

I’ve had to cut my list of authors to read down quite a bit recently, just to keep my stack of books from growing too much.  I still prefer physical books to e-books, though there are many times I’ve wished that I could continue a book on my phone while waiting for something.  I’m not willing to pay twice for the same book for that privilege, and the Amazon Unlimited books don’t seem to have much overlap with my reading list, so I haven’t signed up for that.

Meanwhile, Chin Yi and I managed to watch a movie this week, [amazon_link asins=’B00ZGDIGZ2′ template=’ProductCarousel’ store=’winte0db-20′ marketplace=’CA’ link_id=’2d901f36-52d9-11e7-a269-47cd4eaa8b08′].

With the baby going to sleep around 10:00, and various chores to finish off after that, it can take a few nights to get through a movie.

I’m posting now mostly because I want to continue using my Amazon API account when running the tellico program to keep track of books and movies that I own.  They changed their terms today, and so I had to sign up as an Associate, to put in advertising links to their products.

Orbital mechanics and flying to the Sun

When I watch a science fiction television show or movie, I tend to divide the physics errors into two categories.  There are the ones that I ascribe to narrative or stylistic necessity, and there are the unnecessary mistakes.

In the first group I put things like sound effects in space scenes.  Of course, we all know that sound is not transmitted in a vacuum, but it is often an artistic choice to put sound into these scenes.  Certainly, there are cases where it is not done, the first example that springs to mind being “2001: A Space Odyssey“.  There, the sudden dead silence in some scenes was both realistic and dramatic.

In the second group, though, are things that generally don’t matter to the plot, that could be depicted realistically, but are not.  That brings us to flying into the Sun.

If one were to posit a spacecraft, starting at the Earth, with a trajectory intended to bring it close to the Sun in a flight time of weeks to months, how do you direct the thrust of your engines?  The common depiction treats a flight to the Sun as essentially driving a truck on an invisible highway.  You point your direction of thrust toward the centre of the Sun, turn on the engine, and fly straight there.  This is incorrect, such a trajectory is extremely inefficient, if achievable at all.

While there are many ways we can examine this problem, the simplest one I can think of uses very little math and fairly basic physics.  We will consider only angular momentum.

Angular momentum is a conserved quantity.  If I choose a point in space, the magnitude of my angular momentum relative to that point is equal to the product of my mass, speed and the distance of closest approach between my straight-line extended trajectory and the point of interest.  In mathematical terms, it is the cross product of my momentum and the vector connecting me with the point in space.

Just as momentum is conserved in the absence of a force, angular momentum is conserved in the absence of a torque.  Torque is, similarly, the cross product of the force applied and the vector connecting me with the point in space.

So, let’s consider our angular momentum relative to the centre of the Sun.  Now, when we begin our journey, we are traveling at the same speed as the Earth (approximately 30 km/s), around the Sun.  Our speed is roughly perpendicular to the line connecting the Earth to the Sun, as the Earth’s orbit is quite close to circular.  The magnitude of our angular momentum is, from basic trigonometry, about equal to mass times speed times distance.  That amounts to 4.5E+15 kg m^2/s per kilogram of spacecraft.

Now, we’ve pointed out engine straight away from the Sun, so that our applied force is exactly on the line connecting the spacecraft to the centre of the Sun.  That means that the torque is zero, because the cross product of parallel vectors is zero.  So, in this configuration, the engine cannot change the angular momentum of the spacecraft.  Yes, it can push us toward the Sun, but our initial sideways deflection keeps trying to push us out of the way.  Imagine that you just kept adjusting your engine so the thrust was always directed straight into the Sun, and you managed to just barely touch the edge of the Sun while swinging by.  The Sun’s radius is about 700000 km.  If, for simplicity, we ignore any change in the mass of the spacecraft, that means that it must have a speed along the surface of the Sun of 6430 km/s.  Now, it’s deeper in the Sun’s gravity.  An object starting at the Earth’s orbit and ending at the surface of the Sun would be expected to gain no more than 620 km/s in speed due to gravitational forces.  That leaves a deficit of about 5800 km/s that must come from the spacecraft’s engines.  That is a stupendous delta-V.  Holding onto this number, we now look at a better option.

If, instead, the spacecraft were to fire its engines so as to oppose its motion around the Sun, a much different result is seen.  We already mentioned that the Earth is moving at 30 km/s around the Sun.  So, we now set our engines to drive us backwards along the Earth’s orbit around the Sun.  We run the engines long enough to apply a delta-V of 30 km/s.  Our spacecraft is now sitting still in space, with zero angular momentum relative to the Sun.  But it can’t stay there.  The Sun’s gravity is pulling, and the spacecraft will fall into the Sun.  First slowly, then faster and faster, it will hit the Sun in just under 6 months.  If the trip is intended to take less time, then after the first burn has completed, the engines can now be directed to thrust toward the Sun, and thrust applied as needed.  Earlier thrust is more efficient than later thrust.

So, pushing toward the Sun, about 5800 km/s.  Pushing at 90 degrees to the Sun, about 30 km/s.  And yet you rarely see this handled correctly.

On the reading list

I used to spend an hour a day on the bus going to work, which was an hour a day to read a book.  Now, though, I bicycle to work whenever possible, and as my schedule doesn’t require me to go to the office every day, I bus to the office in the winter time, when I need to go in.  It’s a shorter ride, and there isn’t really time to set up and read, so my reading time has been greatly curtailed.

I used to buy lots of books by many different authors, but as my reading time has become more scarce, I’m having to narrow down to just the authors whose books I don’t want to miss.  I have reached the point where I’m buying almost only books from my “buy on sight” list.  That is, authors whose books I will buy on the strength of the author, without needing reviews, synopses, or even cover art.  If this author wrote it, I will buy it, and put it on my shelf to read.

While I have the Kindle software on my phone and tablet, I still prefer paper books to ones that are bound up in DRM software and the potential hassles and dangers.  I’ll buy unencumbered e-books, the Baen library is excellent for that.  I have bought a few Kindle books from Amazon, when they were in special sale bundles.  I also occasionally download out-of-copyright books from gutenberg.org.

Right now, I’m re-reading Vernor Vinge’s A Fire Upon The Deep. I read it almost 20 years ago, but now I have his sequel, The Children Of The Sky, on my shelf, to be read once I finish the earlier novel.

So, who is on my buy on sight list?

Together, these writers are writing faster than I can read to keep up.  I’m always hoping to find more time to read, and finish more books.

Other authors who would be promoted to this list if I could catch up include

Then, there are the authors who were on my buy on sight list, but have either died or stopped writing, and whose works I have read in close to their entirety.