Images taken form 2:00 UT on, when the 22 meter asteroid was just 5 hours from closest approach of a mere 0.2 Earth Moon distances away. Not satellite scraping, but still reasonably close.
ImageJ (click to embiggen for full asteroidal awesomeness). Images were processed with fairly strong adjustment to brightness and contrast.
There is a very large difference in the brightness of the asteroid in these images (look carefully for the first one, it zips through the bright star image). This implies the asteroid is rapidly rotating and of uneven shape or colour.
After catching 2012 TC4 in iTelescope T14 yesterday, I was all fired up to get it as it was near closest approach.
Sadly at closest approach it was below the horizon from all of the iTelescope scopes.. But I was able to catch it just on astronomical twilight.
Chart of the area around asteroid 2012 TC4. The rectangle is the field of view of iTelescope T5. The circles are the MPC ephemeris positions for 2012 TC4, corrected for parallax as seen from Mayhill New Mexico. The Skymap generated positions from the MPC ephemeris are not anywhere near the parallax corrected positions (click to embiggen).
Unlike yesterday, when the asteroid was moving fast, but not too fast, today as 2012 TC4 was coming within 0.2 Earth-Moon distances of us, it was moving at a fair clip of around 10 arc seconds per minute at the time of imaging.
Under these circumstances trying to track the asteroid with one-line elements would fail (the scopes drives can't push it that fast).
So I used my standard technique, which is to choose a star not far from where the asteroid would be, and set that as the target, then wait for the asteroid to zoom by. "Would be" was the operative word. The asteroid was moving so fast that by the time the telescope slewed to the position were the asteroid was, it would have moved out of frame.
So I measured the time T5 took to slew, autofocus and begin imaging in a series of recent images, and used the average time from start of my run to actual imaging (around 5 minutes) to set the telescope position.
I started the run exactly at astronomical twilight (1:55 UT), and set up the image area to cover where the asteroid would be 5 minutes later. And lo and behold it worked!
Here's a video of the pass. I would have gotten more images but some git was hogging the scope fro something called the Pluto Project (Oh wait! That's me!)
My previous shots of 2012 TC4 are here.