Christmas Puzzle with Amelia

Amelia and I finished another puzzle over the Christmas 2017 break.  All that bear fur was actually tough!

New Africa Twin

Amelia said I could only replace my 2005 Vstrom 1000 with 97,000 miles if it was broken.

Fortunately, it developed a small oil leak last week so I got the new 2017 Africa Twin today.  (Never mind that I was able to fix the oil leak the next day!)

Puzzle #4 with Amelia

We finished this puzzle last week and then had to take it apart a few days later so we could move to Carlsbad. We'll have to get a new puzzle to do in the new house after the move.

Puzzle #3 with Amelia

Here's a puzzle we finished a few months ago.  I think it's the first one we did without a tiger!  But don't worry, we'll get back to tiger's with the next one.

Acceleration from Gravity

Calvin and I were wondering how fast an object could go if it was pulled into a planet by gravity if it started a long ways away and there was not atmosphere to slow it down.

I did the calculation by calculating the gravitational energy at each distance away from the planet/star, then integrating to get the total energy after accelerating through that distance, and then converting that energy to velocity using the equation for kinetic energy.

Here's the plot for acceleration toward Earth:

So for earth, the maximum speed is about 25,000 mph which is only about 0.004% the speed of light.  (Graph generated with Wolfram Alpha using: y=sqrt(2*(9.8-9.8/x)*6.4e6)*2.237 from x = 1 to 100 and y = 0 to 25000 [9.8 is acceleration at surface of earth, 6.4e6 is radius of earth in m, 2.237 is conversion from m/s to mph]).

So what about the heaviest known object in the universe?  If we redo the calculation with the mass of the black hole = 4.2e40 kg (vs. 6e24 kg for earth) and the radius of the black hole of 5e13 m (vs. 6.4e6 m for earth) we get the plot below:

In this case, the object is calculated to reach a maximum 750,000,000 mph which is 10% faster than the speed of light! These calculations assume Newtonian physics and these break down when things approach the speed of light. But it's interesting that gravity alone can accelerate something close to the speed of light.

Opossum at Night

Our first view of the opossum in our backyard:

Our latest picture after getting an IR spotlight and moving the camera closer:

 

Another Tiger Puzzle with Amelia

Here's another tiger puzzle that Amelia and I put together.  Seconds after we took this picture, we dismantled it and started a new one--without a tiger for once!