I love watching anime. I’ve started watching anime around year 2006. Japan, Mirmo de Pon, and the Digimon series were my favorite. I stopped but resumed around 2014 with Hayate the Combat Butler, Baka and Test: Summon the Beasts. I used to marathon shows watching a series a day. Starting 2017, I now catch up to anime on-air to keep up.

Watch anime in high quality with English subs Online on Animes TV. List Anime Of anime-planet.

I watch a wide variety of genres. My favorite ones are adventure, comedy, slice-of-life, drama, ecchi, and fantasy. Use my page for more information Personal recommendation Romance – Awww look at how sweet they are • • • • Drama – Tissues not included • • • • • • • • • Action – Save the world or die trying • • • • Comedy – Have a laugh and enjoy the show • • • • • • • Slice of Life – A daily life with the main character • • • • • • Fantasy – When real-world scenarios wouldn’t work, create one • • • • • • Moe – Fun-filled diabetic comedy shows • • • • • • • • • • Ecchi – A good tickle for your green mind • • • • • • Dark – What’s wrong with sending people to hell?

Disclaimer: May include scenes of extreme content including but not limited to violence, blood, gore, drug use, and bullying. Viewer discretion is advised. • • • • • Mystery – OwO what’s this? • • • • Thriller – Why is my heart racing?

According to the orbital plane XYZ, I understand that the axial tilt is the angle between the planet axis rotation and any normal of the plane (actually Z in right handed system). BUT, this is not sufficient to define a vector direction, I need another angle into the XY plane. Where do I find this information?

Actually I believe it's relative to the direction of the periapsis. Following all the nice conversation on the answers, I maybe need to ask How to get the axial tilt vector(x,y,z) relative to ecliptic or orbital plane, given ONLY ONE angle, i.e. 23.439281 deg for the Earth, 25.19 for Mars, etc.

Mike, thank's for the answer and to correct my english (which is not my mother langage). If i understand well, the norm is: rotation of obliquity counter clockwise around the vector defining the ascending node (x in the case of the eath). I already done the work to translate planet position thank to their orbit using kepler formula, what i missed was the norm used to define the rotation axis for the title. Maybe a misunderstanding of the concept of ascending node.

I start studying astronomy to no more than a week. Hitachi ax m137 manual transmission. In all case many thanks.

– Sep 2 '16 at 10:06 •. No, that is only valid for Earth. In general there is no such shortcut; a single angle is insufficient to define a unique direction. Rotating the ecliptic pole about another planet's ascending node (not the x axis) by that planet's orbital inclination gives you the pole of the other planet's orbit.

The obliquity of the planet's rotational axis gives you an angle away from that orbital axis but does not determine direction. You really need both $ alpha$ and $ delta$ as above. – Sep 3 '16 at 14:13 •.