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// dottore nsfw alphabet ft. the segments! //
i. note — (੭ ᐛ ) hehe.....so...... i have the worst writer’s block rn (its probably burnout because i straight up can't bring myself to do anything but o well) nd i thought filling this out would help. spoiler alert it did a little because i actually finished it.... i have like two Almost Finished wips collecting dust in my docs but i just cant get them done ueue. i write for thirty minutes n then close my laptop. i have a problem but WHATEVER!! THROWS DOTTORE NSFW ALPHABET LIKE A GRENADE AND RUNS!!!
ii. includes — dottore, the clones, gn!reader
iii. cw — nsfw under the cut! mentions of overstimulation, bondage, orgasm control, power imbalance, smidge of dubcon, exhibitionism, dom/sub dynamics, one mention of syringes n needles, implied established relationship
A -> Aftercare (what they’re like after sex)
— He’s not one to outright pamper you, but he does clean you up and makes sure that the bruises he left won’t be too sore in the morning; but if you beg hard enough, he’ll begrudgingly kiss them better. Just use his words against him and tease him a little n he’ll reward you with some smooches! ez
B -> Body part (their favorite body part of theirs and their partner’s)
— He’s indifferent to his body. On you, though, he goes crazy for your neck. Archons, the things he can do to it are endless. He loves covering it in bitemarks, wrapping his hands around it to feel your rapid pulse, sucking hickeys into the sensitive skin... and we can’t forget how much he loves watching you tilt your head to the side so he can inject whatever liquid is inside his syringe. Call it a mix of sensual and morbid fascination the way he’s obsessed with your neck
C -> Cum (anything to do with cum, basically)
— Dottore’s cum is opaque and on the thicker side, but its bitter and not particularly pleasant to swallow. You can’t really blame him; he’s a busy man and he neglects his health regularly. If you ask him nicely, he’ll try to, at least, sip on some pineapple or orange juice during the day so you don’t rush to spit out the cum that lands in your mouth. He also cums a lot, thanks to his involuntary abstinence in his younger years.........
D -> Dirty secret (pretty self-explanatory, a dirty secret of theirs)
— Has thought about fucking you in front of his segments multiple times (not fucking you with them, just having them watch you two go at it. big difference here). It’s usually fueled by irritation or jealousy from seeing you spend time with them, but sometimes he’ll get this random urge to just completely and utterly claim you in front of them to get under their skin. Also to overwhelm you. yk. just a bit ˙ᵕ˙
E -> Experience (how experienced are they? do they know what they’re doing?)
— Wasn’t very experienced before he met you. Had one or two awkward hookups during his Akademiya days, but he really had more knowledge about sex than actual experience (getting a bad blowjob doesn’t really count for experience)
F -> Favorite position
— You somehow always end up in the prone bone position if you’re on a flat surface. He loves restraining you, but doing so with his whole body takes the cake. He’ll have one hand wrapped around your throat with his elbow on the bed to hold him up (so he doesn’t completely crush you), and the other hand will be holding your hip with a bruising grip to angle your pelvis so he can thrust into you over n over again without mercy
— .....but having you ride him when he’s tired is worthy of being an honorable mention. Don’t think you’re in control though, because as soon as you start to get too cocky he’ll grab your waist n thrust up sharply to knock that smile off your face (affectionately)
G -> Goofy (are they more serious in the moment? are they humorous? etc.)
— Very serious, he’ll go as far as to punish you for even trying to crack a joke or giggle at something he said or did (but it’s a dub whenever you’re in a bratty mood so it’s fiiiine). Same goes for his older segments. His younger clones are less uptight about it though, and sometimes they’ll let out a laugh when a funny noise happens, but they won’t necessarily make jokes during it
H -> Hair (how well-groomed are they? does the carpet match the drapes? etc.)
— Trims it when he remembers to, when it gets annoying, or when you point it out. He’s not a fan of being clean-shaven, but if you really want him to be he’ll do it. His pubic hair is a darker shade than his hair, and the first time you saw it you promptly said “so you don’t dye your hair!” (he immediately flicked your forehead)
I -> Intimacy (how are they during the moment? the romantic aspect)
— Dottore isn’t romantic, full stop. But on a scale of 1 through 10 he would be around a 6; could charm you and sweep you off your feet if he wanted to, but he finds more enjoyment in teasing you than being a gentleman.
J -> Jack off (masturbation hc)
— He forgets that’s even an option when he’s in Snezhnaya. Whenever he gets hard he’ll have you take care of it, whether it’s in the form of a quickie or completely ditching his work to fuck you. So he only really masturbates like... once a week, twice at most if you’re not in the mood to help him with his hard on.
— But when he has to go out to other regions for work and won't be with you for long periods of time? He gets off more often than he’d like to admit.
K -> Kink(s)
— Big fan of dacryphilia, spit/messy sex, overstimulation, any kind of restraints, edging, breathplay, power imbalance, biting, dirty talk, brat taming, double penetration and anything that tests your limits.
— Medium fan of sex under the influence of either alcohol or aphrodisiacs, somnophilia, exhibitionism, temperature play, slightly dangerous things like knife and gun play, and group sex (with his segments specifically, no one else. he’s possessive of you)
— Honorable mention: roleplay, to some extent. Mans loves to do a “medical checkup” on you every once in a while. And he’s more of a dom than a sub, too. His older segments have pretty much the same kinks as he does (ofc), but the younger ones tend to lean more towards being switchy than just. dom
L -> Location (favorite place to do the do)
— Has a bias for taking you in his office. Loves the idea that any of his segments could overhear the both of you going at it and all they can do is rub one out somewhere quiet. He’s so mean to them, using you like that.........
M -> Motivation (what turns them on)
— When you act like a brat, purposely teasing him n pushing his buttons..... makes his blood rush down to his cock. Can’t help thinking of the many ways he’ll put you in your place later
N -> No (immediate turn offs)
— Anything that has to do with his kid/youngest segments and his coworkers, the other Harbingers.
O -> Oral (preference in giving or receiving, skill, etc.)
— Would rather receive than give, but won’t shy away from the opportunity to overstimulate you with his fingers/hands and tongue. Isn’t the best at giving head but will gladly take the time to learn what makes you cum the fastest if you want him to
P -> Pace (are they fast and rough? slow and sensual? etc.)
— Dottore’s usually fast n rough, but he’ll have his moments where he wants to dote on you hard. His lack of affection catches up to him n he just wants to trace every curve of your body while languidly driving his cock inside of you sometimes, what can ya do
Q -> Quickie (their opinions on quickies, how often, etc.)
— Prefers taking his time to tease you by a mile, but he loves quickies too (since he can very well tease you by having a quickie)
R -> Risk (are they game to experiment?) the irony of this wording isn’t lost on me
— He's game to experiment. If you’re on board, he’s always willing to try something at least once
S -> Stamina (how many rounds can they go for? how long do they last?)
— His younger segments tire out easily (virgins....... /affectionate) but his older ones, himself included, can go on and on and on. Him being a hermit n staying in his lab for multiple days at a time is extremely misleading, don’t be fooled!! He’ll overstimulate you to prove a point if you try to even poke fun at him n imply that he’ll get tired because he doesn’t “exercise” much (you’re his exercise, anyways)
T -> Toys (do they have any?)
— Dottore does have some (and has dabbled in making some, too), namely (big and small) vibrators, dildos, and restraints but most of the time he prefers doing without them than with. Usually. When he does use them, he’ll make the whole “session” about them.
— Controlling the rate in which a machine fucks you while he lazily jerks off in front of you, just out of your reach so you can’t touch him.... slowing down the silicone dildo’s pace when you start to get frustrated, making you even more frustrated..... yeah
U -> Unfair (how much they like to tease)
— He’s the WORST. The worst!!! You never know if he’ll overstimulate you, edge you, ruin your orgasm or just rile you up just to not do anything about it. Loves teasing you just as much as he loves to bury himself in his research (which is, obviously, a lot. good luck soldier)
V -> Volume (how loud they are, what sounds they make, etc.)
— Definitely on the quieter side (and it’s totally not so he can hear you more clearly, nuh uh). Lets out grunts/growls and heavy puffs of air more than actual moans, but it just makes the times whenever you do manage to draw out a pretty boy moan even sweeter <3
W -> Wild card (a random hc)
— Il Dottore, the Second Harbinger, outcast of the Akademiya, is incredibly touchy. He’ll place his hand on your waist when he walks past you, he’ll keep a hand on your thigh when you’re accompanying him during a meeting. He needs to have a hand on you at all times /whenever it’s possible/, including when you’re having sex. Can’t go a single second without touching you, he would probably actually bite you without any remorse if you tried to tie his hands so he can’t touch you
X -> X-ray (what’s going on under those clothes ₍ᐢ. ̫.ᐢ₎ )
— Bigger than most, but more of a grower than a shower. 3.8 inches soft and stands at a proud 7.4 inches when hard, with a 4.7 girth . Circumcised (don’t ask how), his skin is light (#FFEBCF) but his cock fades into a slightly darker color (#F7D4BC) while the head is more of a pretty n peachy tone (#F1A491). Has some light scarring in his pelvis area and a defined vein from the bottom of his shaft that stops shy of his glans. Also curves to the right just a bit.......
— His pubes r a dull-ish blue (#88B5D3)— while the hair on his head is a lighter, more teal blue for reference (#B6E0E0). Has a slight happy trail, too
Y -> Yearning (how high is their sex drive?)
— He used to have a very low sex drive. In the beginning of your relationship, it wouldn't be uncommon for you two to go weeks without any action. As time went on though, he’s come to develop a higher sex drive and now has a mid to high libido. It’s your fault for being so tempting, really
Z -> Zzz (how quickly they fall asleep afterwards)
— Has the freakish ability to go right back to work as if nothing ever happened when you’re both finished, no matter how much you both cum...... makes him the perfect man to provide aftercare though. He’ll stay by your side while you drift off and then he’ll go back and do whatever he has to do— unless you cling onto him n pull him back to stay in bed. If that does happen, he’ll just sit in bed and read a book while you snooze away.
#the color html shit took so long good lord my fingers r cramping from doing ctrl c ctrl + v help me#dont come for me for describing his weewee in detail..........#i hope this doesnt flop#genshin x reader#dottore x reader#genshin x you#dottore x you#dottore x gn reader#dottore smut#genshin smut#genshin impact smut#cw dubcon#cw knife play#cw gun play#୧ ‧₊˚cat's work!
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✧・゚: Customize your highlight color! :・゚✧
I recently came across a blog where when I went to highlight some text I noticed it was a unique color!!! (」°ロ°)」
AND IT'S SO SIMPLE TO DO
all you do is go to your css file and add this:
::selection {
background: <hexcolor>
}
Enjoy!! ♡⸜(˶˃ ᵕ ˂˶)⸝♡
#codeblr#progblr#programming#tech#coding#resources#frontend#studyblr#aesthetic#css#html#these little details make me so very happy#css tips
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i love my dumb neocities website it fills me with so much joy
#shut up momo#i figured out how to have two side bars again because i messed up the html HAHA#i think i’ll also add an FAQ which details about the art stuff i use idk what else do you put on a homepage AHA
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hey autism website. does anyone feel like infodumping about html. i need to know how to add alt text for screenreaders to my images and i found this [link to forum] but i don't understand what any of it means.
#im so serious like if this is something that excites you to talk about please tell me in excruciating detail#because i want to understand how the coding works not just “copy paste this here and copy paste this there” THAT DOESN'T TELL ME#HOW TO DO IT!!!#EXPLAIN IT LIKE IM FIVE PLEASE IM BEGGING#im also the autism i need step by step breakdown i need to know HOW it works not just WHAT works#html#infodump bait
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There's probably a viable pathway into career software development by starting as a QA tester - especially if you demonstrate basic proficiency w like python or javascript (node)
#qa rly just means 'professional software user'#so if yr good on the computer but not necessarily at coding you can probably do it fine#excel experience would prob help too#particularly a lot of like e2e/full integration tests are pretty disconnected from the details of the codebase#like in web stuff its rly abt understanding html structure & ids/class names more than anything to do w js
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hiii so i'm pretty sure i'm a robotkin, can i just ask ya how you confirmed you're one? what resources ya used to confirm your identity, anything like that?
im not entirely sure how i confirmed it tbh my brain just went 'So youre a robot now' and i went with it. this strategy is not very helpful at all though
i guess like part of it was how i tended to appear in my little maladaptive daydreaming land. like 99% of the time for the past 4 years i have been a robot and only recently have i been a zombie its more like a 50/50 ratio of zombie to robot now
anyways it got me thinking about Why i needed to see myself as a robot so bad and at some point i didnt even need to ask myself . like i was just a robot
#my zombiekin confirmation was a lot more like. 💥💥💥💥 than my robotkin one but youre not asking about that so im not going to share-#-details about that right now#i hope this helped lol how my identity works is a mystery to everyone around me i dont know things like 'resources' or anything#anyways i hope you figure it out soon its always great to learn something new about yourself!!!!!#and dont feel like you have to be 100% sure you can change your mind on things later if it turns out you werent what you thought you were#it happened to me with being a cat#<p>forever thinking in html</p>#asks
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the chosen would soooo have an angelfire website...
#or a neocities if we're in modern age#ghhnmmm now I wanna try and make a webpage from the eyes of chosen#tbh I think both him and Augustus would have one but. Chosen's site would be bare html with minimal/basic css#whereas Augustus' would be drenched in complex javascript and more detail heavy css#.txt
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Just wanted to say I really love the new little puzzle elements on ATBB, I spent a good amount of time today trying to figure everything out lol
hii sorry im late getting to this but thank you!! thats really nice to hear since i've been kinda wondering for a while how many people have actually been looking into that aspect of it lol, i'm super glad you're having fun with it!!!
#trousled rambles#and there WILL be more to come i promise!! i keep getting myself caught in loops where i make a new thing without knowing where it fits#especially for when i finally get back to ebony's section. sobs#with the secret surprise intermission i CAN say i've seen about 2 people figure it out so far which has been cool#idk if it was from actually figuring out the puzzle for that specific detail or dumb luck but good job to yall!#the intermission isnt over Yet & i have at least 1 more thing to sneak in but it IS on pause til i can start some new meds oops#shouldnt be too long but AAAAAAGH#now if only that actually kept me from constantly returning to the html mines........
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(^ enlarged)
(^ original)
(^ enlarged)
(^ original)
#txt#i just don't like how the small ones get indented left with a big white space on the rest of the post#but the enlarged ones blow out the pixels and details#especially if it's a thin panel#i might look into editing the html if people prefer small!
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when i changed my name, I changed my last name to kessler because of the kessler effect
Incredible, I've been stuck on what to change my middle name to and hadn't thought to just take a famous astrophysicist's surname.
#to be clear this is not the blog of Don Kessler if you want to contact him please see his contact details on his website;#https://aquarid.physics.uwo.ca/kessler/iwp5.html
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new desktop theme by @atlasthemes, new mobile header by @bluejane and new icon made by me <3
#btw this is literally what i mean it's hard to find new resources. both blogs are deactivated#but i still give credit bc i would feel weird if i didn't lol#anyways how you like the icon? it's the best i can do lol but i think it's soooo cute <3#i spent DAYS trying to find a cute dean icon but i just couldn't#also i customized the theme and i think i did pretty good considering i don't know html or css??#there's one tiny detail that needs fixing and bugs me but oh well. maybe another day#btw sorry for being stuck in 2016 still ig#also i might change url soon but i still haven't made up my mind#ALSO do you have a folder with all your previous tumblr icons on your high school laptop you literally don't use anymore or are you normal#updates
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i love nesting html tags. like YES, this ordered list will have a DETAILS drop down, and in the details drop down, there WILL be yet another, SMALLER ordered list, and there is NOTHING you can do about it
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dont use javascript just use details & summary! *face melting emoji*
#shoutout to me that time i fucked with javascript for fucking ever trying to get dropdowns to work#only to stumble across html details and summary -_-#also i am staunchly refusing to learn javascript at least for now#coding#crimson speaks
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im so excited 😃😃
#after 4 years of going back and forth im finally trying to make a tumblr theme#ive always wanted to make one tumbkr was literally the reason i changed majors jdjdbsjdn#i only learned a bit of html this year but it's enough to start!!#major achievement as of today: i can toggle between dark and light mode and the posts are animated !!!!!!#i spent the entire day trying to understand how things work and im so happy that those two little details actually worked sjdjksmfkskf#itll probably take me a while to finish it but once i do if it looks good enough i might even use it for my blogs hebheheheheh#.txt
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Re-Working the CSS Almanac
New Post has been published on https://thedigitalinsider.com/re-working-the-css-almanac/
Re-Working the CSS Almanac
Getting right to it: the CSS-Tricks Almanac got a big refresh this week!
I’m guessing you’re already familiar with this giant ol’ section of CSS-Tricks called the Almanac. This is where we publish references for CSS selectors and properties. That’s actually all we’ve published in there since the beginning of time… or at least since 2009 when most of the original work on it took place. That might as well be the beginning of time in web years. We might even call it Year 1 BR, or one year before responsive.
You don’t need me telling you how different writing CSS is today in the Year 14 AR. Quite simply, the Almanac hasn’t kept pace with CSS which is much, much more than properties and selectors. The truth is that we never really wanted to touch the Almanac because of how it’s configured in the back end and I’m pretty sure I spotted a ghost or two in there when I poked at it.
Visiting the Alamanc now, you’ll find a wider range of CSS information, including dedicated sections for pseudo class selectors, functions, and at-rules in addition to the existing properties and selectors sections. We’ve still got plenty of work to do filling those in (you should help!) but the architecture is there and there’s room to scale things up a little more if needed.
The work was non-trivial and as scary as I thought it would be. Let me walk you around some of what I did.
The situation
We’re proudly running WordPress and have since day one. There’s a lot of benefit to that, especially as templating goes. It may not be everyone’s favorite jam, but I’m more than cool with it and jumped in — damn the torpedoes!
If you’re familiar with WordPress, then you know that content is largely sliced up into two types: pages and posts. The difference between the two is fairly minimal — and nearly indistinguishable as they both employ the same editing interface. There are nuances, of course, but pages are largely different in that they are hierarchal, meaning they’re best for establishing parent-child page relationships for a nicely structured sitemap. Posts, meanwhile, are more meta-driven in the sense that we get to organize things by slapping tags on them or dropping them into a category group or whatever custom taxonomy we might have in reach.
The Almanac is built on pages, not posts. Pages are boss at hierarchy, and the Alamanc is a highly structured area that has a typical sitemap-like flow, and it just so happens to follow alphabetical order. For example, an entry for a CSS property, let’s say aspect-ratio, goes: Almanac → Properties → A → Aspect Ratio.
That doesn’t sound like a bad thing, right? It’s not, but pages are tougher to query in a template than posts, which have a lot more meta we can use for filtering and whatnot. Pages, on the other hand, not so much. (Well, not obviously so much.) They’re usually returned as structured objects because, you know, hierarchy. But it also means we have to manually create all of those pages, unlike tags and categories that automatically generqte archives. It feels so dang silly creating an empty page for the letter “A” that’s a child of the “Properties” page — which is a child of the Almanac itself — just so there’s a logical place to insert properties that begin with the letter A. And that has to happen for both properties and selectors.
The real problem is that the Almanac simply tapped out. We want to publish other CSS-y things in there, like functions and at-rules, but the Almanac was only ever built to show two groups. That’s why we never published anything else. It’s also why general selectors and pseudo-selectors were in the same bucket.
Expanding the place to hold more content was the scope I worked with, knowing that I’d have some chances to style things along the way.
One template to rule them all
That’s how things were done. The original deal was a single template used for the Almanac index and the alphabetical pages that list selectors and properties. It was neat, really. The page first checked if the current page is the Almamac page that sits atop the page hierarchy. If it is that page, then the template spits out the results for selectors and properties on the same page, in two different columns.
The query for that is quite impressive.
<?php function letterOutput($letter, $selectorID, $propertyID) $selector_query = new WP_Query(array( 'post_type' => 'page', 'post_status' => 'publish', 'post_parent' => $selectorID, 'posts_per_page' => -1, 'orderby' => 'title', 'order' => "ASC" )); $html = '<div class="almanac-group">'; $html .= '<div class="group-letter"><a id="letter-' . $letter . '">' . $letter . '</a></div>'; $html .= '<div class="group-list">'; while ($selector_query->have_posts()) : $selector_query->the_post(); $html .= '<details id="post-' . get_the_id() . '" class="link-item"><summary>'; $html .= '<h2><code>'; $html .= get_the_title(); $html .= '</code></h2>'; $html .= '</summary>'; $html .= get_the_excerpt(); $html .= '<pre rel="CSS" class="almanac-example"><code class="language-css">'; $html .= get_post_meta(get_the_id(), 'almanac_example_code', true); $html .= '</code></pre>'; $html .= '<a class="button" href="' . get_the_permalink() . '">Continue Reading</a>'; $html .= '</details>'; endwhile; $html .= "</div>"; $html .= "</div>"; return $html;
That’s actually half the snippet. Notice it’s only marked up for a $selector_query. It loops through this thing again for a $property_query.
From there, the function needs to be called 26 times: one for each letter of the alphabet. It takes three parameters, namely the letter (e.g. A) and the page IDs for the “A” pages (e.g. 14146, 13712) that are children of the selectors and properties.
<?php echo letterOutput("A", 14146, 13712); // B, C, D, E F, G, etc. ?>
And if we’re not currently on the index page? The template spits out just the alphabetical list of child pages for that particular section, e.g. properties. One template is enough for all that.
Querying child pages
I could have altered the letterOutput() function to take more page IDs to show the letter pages for other sections. But honestly, I just didn’t want to go there. I chose instead to reduce the function to one page ID argument instead of two, then split the template up: one for the main index and one for the “sub-sections” if you will. Yes, that means I wound up with more templates in my WordPress theme directory, but this is mostly for me and I don’t mind. I can check which sub-page I’m on (whether it’s a property index, selector index, at-rules index, etc.) and get just the child pages for those individually.
The other trouble with the function? All the generated markup is sandwiched inside a while()statement. Even if I wanted to parse the query by section to preserve a single template architecture, it’s not like I can drop an if() statement anywhere I want in there without causing a PHP fatal error or notice. Again, I had no interest in re-jiggering the function wholesale.
Letter archives
Publishing all those empty subpages for the letters of each section and then attaching them to the correct parent page is a lot of manual work. I know because I did it. There’s certainly a better, even programmatic, way but converting things from pages to posts and working from that angle didn’t appeal to me and I was working on the clock. We don’t always get to figure out an “ideal” way of doing things.
It’s a misnomer calling any of these letter pages “archives” according to WordPress parlance, but that’s how I’m looking at the child pages for the different sections — and that’s how it would have been if things were structured as posts instead of pages. If I have a section for Pseudo-Selectors, then I’m going to need individual pages for letters A through Z that, in turn, act as the parent pages for the individual pseudos. Three new sections with 26 letters each means I made 78 new pages. Yay.
You get to a letter page either through the breadcrumbs of an Almanac page (like this one for the aspect-ratio property) or by clicking the large letter in any of the sections (like this one for properties).
We’ve never taken those pages seriously. They’re there for structure, but it’s not like many folks ever land on them. They’re essentially placeholders. Helpful, yes, but placeholders nonetheless. We have been so unserious about these pages that we never formally styled them. It’s a model of CSS inheritance, tell you what.
Yup, you can stop gushing now. 😍
This is where I took an opportunity to touch things up visually. I’ve been working with big, beefy things in the design since coming back to this job a few months ago. Things like the oversized headings and thick-as-heck shadows you see.
It’s not my natural aesthetic, but I think it works well with CSS-Tricks… and maybe, just maybe, there’s a tear of joy running down Chris Coyier’s face because of it. Maybe.
Navigating
Another enhancement was added to the navigation displayed on the main index page. I replaced the alphabetical navigation at the top with a nav that takes you to each section and now we can edit the page directly in WordPress without having to dev around.
Before (top) and after (bottom)
The only thing that bothers me is that I hardcoded the dang thing instead of making it a proper WordPress menu that I can manage from the admin. [Adds a TODO to his list.]
Since I freed up the Alamanc index from displaying the selector and property lists in full, I could truly use it as an index for the larger number of sections we’re adding.
There may be a time when we’ll want to make the main page content less redundant with the navigation but I’ll take this as a good start that we can build up from. Plus, it’s now more consistent with the rest of the “top-level” pages linked up in the site’s main menu as far as headers go and that can’t be bad.
Oh yeah, and while we’re talking about navigating around, the new sections have been added to the existing left sidebar on individual Almanac pages to help jump to other entries in any section without having to return to the index.
Yes, that’s really how little content we have in there right now!
Quickly reference things
The last enhancement I’ll call out is minor but I think it makes a positive difference. If you head over to any subpage of the index — i.e., Selectors, Properties, Pseudos, Functions, At-Rules — a snippet and high-level definition is available for each item at the ready without having to jump to the full page.
We’ve always been big on “get to the examples quickly” and I think this helps that cause quite a bit.
“You could’ve also done [x]…”
Yeah, lots more opportunities to tighten things up. The only goal I had in mind was to change things up just enough for the Almanac to cover more than selectors and properties, and maybe take some styling liberties here and there. There’s plenty more I wanna do and maybe we’ll get there, albeit incrementally.
What sort of things? Well, that hardcoded index navigation for one. But more than that, I’d like to keep pushing on the main page. It was serving a great purpose before and I pretty much wiped that out. It’d be good to find a way to list all of the entries — for all sections — the way we did when it was only twe sections. That’s something I plan to poke at.
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The Gravitational Waves Reflection In The Solar System
(Analytical Study) (Revised)
or
or
or
Abstract
Paper question
How Is Planet Velocity Defined?
Paper Hypothesis No. (1)
The solar system is one energy moves in space and reflects 3 times - the points of the reflection are the planets- as a result- the planets are created depending one each other by this energy reflection.
The Explanation Of The Hypothesis No. (1)
I- Preface
Why do we need to define Planet velocity here? Because
Planet velocity definition disproves The Solar System Classical Description.
II- The hypothesis Explanation in details
The Energy Reflection Definition
The Energy Reflection Proves
The Energy Reflection Result
The Energy Reflection Objective
Saturn Creation Depends On Uranus And The Earth
Let's explain the previous items in following
I- Preface
Why do we need to define Planet velocity before any other discussion in this paper? Because Planet velocity disproves The Solar System Classical Description.
The classical description refutation is a great event because the theories depend on it and – that means- more than 12 theories are wrong in the modern physics book
Shortly- more than the half of the modern physics book provides imaginary ideas and wrong theories because the solar system classical description is wrong.
Let's see examples to explain that clearly
Example No. (1)
No Planet Moves By The Sun Gravity- Newton is wrong- I have proved this fact since long time- and I explained that- Planet moves by the force caused its creation- means- the planet creation and motion is done by one force only otherwise this planet would be broken- simply – if two forces have effects on the same planet it would be broken- means- the planet moves with its creation force- again No planet moves by the sun gravity-
The example shows a gap between the physics book and the solar system facts – Newton imaginary idea is believed by everyone since 400 years!
But- the example doesn't show how great the gap is- in fact the shock is coming from The Sun Nuclear Fusion Theory- let's see the next example
Example No. (2)
The Sun Is Created By The Planets Motions Energies–The Sun Is A Phenomenon
Here we can see the gap clearly
The solar planets were found in their orbits before the sun creation and the planets were revolving around a point in space (this point has no light)
The planet motion produces energy (1/2 mv^2) and this energy is stored in the space in waves form- the planets were revolving around this point for long periods till the stored motion energy in the space be massive energy-
From this massive motion energy the light beam is created (the sun rays is created)
The sun rays is created from this energy- that tells why the sun corona temperature is 5 millions Kelvin but the sun surface is 5800 Kelvin- simply- because The Sun Is Not Doing Nuclear Fusion To Produce Its Rays, the rays is created by the planets motions energies– The Sun Rays Show The Great Gap Between The Physics Book And The Facts
The wrong description is the reason behind the imaginary ideas and wrong theories in the physics book- one more example- the scientists won Nobel prize in physics for their discovery for the gravitational waves- these scientists told us – the gravitational waves are produced by the sun gravitational field which is NOT FACT– the gravitational waves are produced by Planet motion energy- where the planet moves and produces energy (1/2 mv^2) and the planet can't store its motion energy inside its body otherwise its temperature would be raised for that the planet motion energy is stored in the space In Waves Form- the scientists discovered these waves and they called them gravitational waves!! Let's provide one more example
Example No. (3)
The big bang theory tells us the planet creation is done by random process- in details- the theory tells–some planets are suffered from collisions and these collisions changed their diameters and masses- by that we can't know their original diameters and masses by that the current values of these diameters and masses are found by chance and without any geometrical reasons and should be considered random data-
For example- Jupiter diameter now is 142984 km but what's this diameter value in the first creation of Jupiter?
The big bang theory and all random creation ideas are wrong and nonsense- shortly- I have my planet diameter equation which proves Planet diameter is created based on a geometrical rule- means- for example- Jupiter diameter is created at first as 142984 km and never changed since its creation- if any planet had collision and changed its diameter this collision results would be recorded in this planet motion features- as happened with Mars- Mars original orbit was between Mercury and Venus and Mars had migrated to its current orbit- and Mars had collided with Venus and The Earth in its migration motion- but Mars diameter equation refers frequently to its original orbit features and data- that tells the planet motion provides a record for its history because all data is required for planet motion- by that – all data depends on geometrical rules and no random process is used in it –
let's introduce my planet diameter equation in following….
Planet Diameter Equation (v1/v2)= (s/r)= I
v = Planet Velocity and r = Planet Diameter
s= Planet Rotation Periods Number In Its Orbital Period
I= Planet Orbital Inclination (example, 1.8 degrees be produced as a rate 1.8)
v2, s, r and I are belonged to one planet and v1 is belonged to another planet
The planet (v1) is defined by test the minimum error
Earth Equation uses Neptune velocity
Mars Equation uses Pluto velocity
Jupiter Equation uses the Earth moon velocity
Saturn Equation uses Mars velocity
Uranus Equation uses Neptune velocity (As Earth)
Neptune Equation uses Saturn velocity
Pluto Equation uses the Earth moon velocity (As Jupiter)
(The Equation works from The Earth To Pluto) (the discussion explains the reason)
Example
Neptune Equation (89143 /49528) = 9.7/ 5.4 =1.8
89143 = Neptune rotation periods number in Neptune orbital period
49528 km = Neptune diameter
9.7 km/s = Saturn velocity
5.4 km/s = Neptune velocity
59800 days = Neptune orbital period (and Neptune rotation period =16.1 hours)
1.8 degrees = Neptune Orbital Inclination
The equation tells planet diameter is created based on its velocity –means- Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s
The Equation Concept
Planet diameter should be a function in its orbital distance –otherwise- this planet would be broken by its motion- the fact is that – The necessary requirement for planet safe motion is to create a function between this planet diameter and its orbital distance
BUT- the designer can't create a function has only 2 variables (Planet diameter and its orbital distance)- the function in this case can't be useful because – If this planet changes its orbital distance its diameter would be broken also because the diameter is a direct function in the orbital distance without any other variables -As A Result
The designer created the planet diameter as a function in this planet rotation period and the planet rotation period is created as a function in this planet velocity and the planet velocity is created as a function in this planet orbital distance- by that- the function between the planet diameter and its orbital distance is created but the function contains also more variables (rotation period, orbital period and velocity)- by that- if the planet changes its orbital distance- this planet diameter will not be changed but its rotation period, orbital period, and velocity will be changed and the diameter will be saved-
NOTICE-Mars is the example for this theory because Mars original orbit was between Mercury and Venus and Mars had migrated from its original orbit to its current one- after Migration Mars changed its motion data but the diameter is saved
NOTICE- Planet diameter equation is very useful to analyze the energy reflection in the solar system because the equation shows the changes in data resulting from the energy reflection- for example- the equation produces the planet orbital inclination-but in Saturn equation- the equation produces the value (0.4) while we know Saturn orbital inclination is 2.5 degrees- the value (0.4) is produced because the energy is reflected in Saturn and that caused effect on the data by that the value (2.5) become (1/2.5) = 0.4- that's why I refer to my planet diameter equation in this discussion because the equation can work as a tool of anatomy which can see clearly what's happening for the energy in each planet-
Matter Definition
My planet diameter equation provides a new definition for the matter – this definition is found to answer the question- (How Can Planet Velocity And Motion Be Defined Before This Planet Creation?)
What's The Matter And How Is Created?
The matter and space are created from the same one energy and both move with the motion of this energy from which they are created- but- the matter creates for itself a distinguish form and moves by different velocity from the space motion (notice the gravitational waves prove the space has motion and not static).
This is similar to the sea of water- the space is similar to the sea of water and the matter is similar to a whirlpool (vortex) found on the sea page-
The whirlpool (vortex) is created by the sea water and it's carried by the sea water motion- spite of that- the whirlpool is different in its form from the sea waves – also the whirlpool moves by different velocity from the sea waves motion velocity- this example gives explanation for the matter definition- the matter is similar perfectly to the whirlpool on the sea page- it's created by the sea water motion but it has a distinguish form and different velocity from the sea waves-
Also
The whirlpool dimensions depend on the sea water motion features- for example – we have a whirlpool its diameter is 2 meters, this diameter is formed by the sea water motion features (the water velocity- amount-pressure -……etc) that tells the whirlpool is found later after the sea creation- and the water motion is found before the whirlpool creation- this meaning is a fact for the matter creation and dimensions- the matter dimensions are created based on this matter motion- means- the motion is defined before the matter creation- this is proved strongly by my planet diameter equation- the equation tells (for example) Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s- the whirlpool idea explains how the planet matter data is defined based on its motion- because
The original energy was found in motion at first and the planet matter is created from this moving original energy and the planet matter dimensions are defined by this original energy motion features- after the planet creation, the planet moves with this original energy motion means the planet moves this same motion based on which the planet data is created that's why the planet data is in full harmony with the planet motion features.
Also the idea shows the planet motion reason- as I proved before- no planet moves by the sun gravity- Newton is wrong- because the planet creation and motion are done by one force only otherwise this planet would be broken if two forces have effects on it
Here we see the planet motion reason- the planet moves with the original energy from which this planet is created-
What's the original energy?
The original energy is one light beam energy- because – the solar planets and their distances are created from one energy and this energy is provided by one light beam –means – the planets are geometrical points found on the same one light beam and the planets move with this light beam motion-
By that the planets are similar to carriages in one train and the light beam is this train engine- the light motion causes all planets motions
NOTICE - this definition of the matter and planet is very important for our discussion because the paper hypothesis no. (1) tells – the solar system is one energy moves in the space and reflected on some points and these points are the planets- the reflection of energy discussion will show how each planet data and motion depend on the other planet motion by the energy reflection effect- shortly- (The Planet Is A Geometrical Point) this idea is the best one can explain the energy reflection data- by that we can understand how the energy motion and reflection can effect on the planet creation and motion- the energy reflection discussion is found in the paper first hypothesis explanation.
Planet Velocity Definition
Again let's ask ……Why Do We Need To Define The Planet Velocity? ……….
Because – the planet velocity definition refutes the solar system classical description- the definition proves the planet is a geometrical point on the moving energy (and refute the classical definition tells – planet is a solid body created independently from the space and other planets) – in fact the planets are created depending on each other – The 9 planets are as 9 knots or snarls on the same one rope or cable – No planet is created independently– also all of them are created by the same one motion and the same one reason- (imagine you have a ladder or stairs is consisted of 9 units- all units are similar and found for the same reason)- the data proves this fact also
Planet velocity definition provides a powerful proof against Newton theory of the sun gravity-No Planet Motion Depends On Its Mass- Newton is wrong- the velocity Definition Doesn't Refer To Planet Mass- Also planet velocity definition provides a direct strong proof for the energy reflection in the solar system- also – the velocity definition explains the complex machine behind the planet motion which refutes again the naïve idea of Newton about this motion-
The planet velocity definition shows the general design of the solar system where all planets data is defined based on its velocity- means- the planet velocity is defined at first (after the orbit definition) and all other data is defined based on this velocity as we have seen the planet diameter is defined by the rate (v1/v2) by my planet diameter equation and planet orbital distance is defined by the rate (v1/v2)^2 and planet orbital period is defined by the rate (v1/v2)^3- shortly- the motion is the planet life
SHORTLY
I refute the solar system classical description and I wanted to put a piece of strong proof in the first pages of my paper to show that the refutation doesn't depend on ideas or logical analysis- but the refutation depends on the contradiction between the physics theories and the planets creation & motion data- If the contradiction is proved that tells the description is wrong because the planets data can NOT be wrong
Let's start our discussion
How is planet velocity defined?
Kelper stated, planet orbit defines its velocity, this rule is proved by the equation (v1/v2)^2=(d2/d1) where (d= planet orbital distance) and (v= planet velocity)
BUT
How Is The Planet Velocity Defined? And By What Rules?
Planet velocity is defined by Three Rules let's see them in following
(i) First Rule
v1v2 = constant= 322 (my 5th equation)
47.4 km/s (Mercury velocity) x 6.8 km/s (Mercury velocity) =322
35 km/s (Venus velocity) x 4.7 km/s (Pluto velocity) x 2 =322
29.8 km/s (The Earth velocity) x 5.4 km/s (Neptune velocity) x 2 =322
24.1 km/s (Mars velocity) x 13.1 km/s (Jupiter velocity) =322
(Max error 2%)
The rule (v1v2=322) tells the velocities are defined in pairs and not individually, each planet velocity has its own complementary- the rule tells the velocities are reflected on one another- the reflection of energy and data will be studied in details in planet velocity discussion-
In this rule we interest for the constant (322)- let's ask- why the constant = 322?
The constant 322 depends on the speed 1.16 million km per second because
(1160000 seconds = 322 hours) - Means
Mercury (47.4 km/s) moves in 6.8 hours a distance = 1.16 million km and
Uranus (6.8 km/s) moves in 47.4 hours a distance = 1.16 million km
Shortly -we realize that the constant 322 is produced based on the speed 1.16 million km per second- means- the planets velocities are complementary each other because they are defined as functions in this same speed 1.16 million km per second
(This is similar to electron and positron are produced from Gamma ray, The two particles depend on Gamma energy in their masses)
Based On This Data
I concluded there's a light beam its speed 1.16 million km per second and from this light beam energy the solar system is created- and the planets velocities are defined as functions in this speed 1.16 million km per second and that causes the velocities to be complementary each other-
(Please note the speed 1.16 million km per second is proved strongly by other data in my paper specially because the light created the space at first before any planet creation by that all distances in the solar system are created by the energy of this light beam and its speed 1.16 million km per second is registered in the data)
(ii) Second Rule
v1v2 = 1
The velocity here uses the solar day (86400 seconds) – let's prove that-
Mercury moves per solar day = 4.095 million km
Venus moves per solar day = 3.024 million km
The Earth moves per solar day = 2.574 million km
The Moon moves per solar day = 2.4 million km
Mars moves per solar day = 2.082 million km
Jupiter moves per solar day = 1.1318 million km
Saturn moves per solar day = 0.838 million km
Uranus moves per solar day = 0.5875 million km
Neptune moves per solar day = 0.4665 million km
Pluto moves per solar day = 0.406 million km
AND
0.406 (Pluto velocity) x 2.4 (the moon velocity) = 1 (error 2.5%)
0.4665 (Neptune velocity) x 2.082 (Mars velocity) = 1 (error 2.5%)
0.5875 (Uranus velocity) x 3.024 (Venus velocity)/1.772 = 1 (error 2.5%)
0.838 (Saturn velocity) x 1.1318 (Jupiter velocity) = 1 (error 5%)
(1.772 = π^1/2)
The second rule tells very similar meaning (v1v2= constant= 1)
The data uses the velocities per solar day for that the constant is changed from 322 into 1 but the rule is the same- (v1v2= Constant)
I want to say- the rule (v1v2 = Constant) tells a clear idea that (The Velocities Are Reflected On Each Other) this conclusion is simple one (A x 1/A= constant=1)
The rule proves the energy is reflected in the solar system and this reflection has effect on the planets data and for that the planets velocities are defined by this energy reflection and the velocities are produced complementary each other as a result.
Notice
The second rule causes confusion because the complementary player is changed- for example Pluto is complementary with Venus (in the first rule 35 x 4.7 x 2 = 322) but Pluto is complementary with the Earth moon in the second rule (0.406 x 2.4 = 1) that tells the players are changed which is illogical idea- how can we solve this problem?
The third rule solves it – let's see this rule in following
(iii) Third Rule
v1/v2 = 0.8 (based on the planets order)
47.4 km/s (Mercury velocity) x 0.8 = 38 (35 km/s = Venus velocity error 7.25%)
35 km/s (Venus velocity) x 0.8 = 27.78 (The moon velocity)
29.8 km/s (The Earth velocity) x 0.8 = 24.1 (Mars velocity) (error 1%)
24.1 km/s (Mars velocity) x 0.8 = 2 x 9.7 (Saturn velocity)
13.1 km/s (Jupiter velocity) x 0.8 = 2 x 5.4 (Neptune velocity) (error 3%)
6.8 km/s (Uranus velocity) x 0.8 = 5.4 (Neptune velocity)
5.4 km/s (Neptune velocity) x 0.8 = 4.3 (Pluto velocity 4.7 the error 7.25%)
Please note
The error 7.25 is found by the rate 1.0725 – that means
47.4 km/s (Mercury velocity) x 0.8 = 38 = 1.0725 x 35 km/s (Venus velocity)
5.4 km/s (Neptune velocity) x 0.8 = 4.3= 4.7 km/s (Pluto velocity) / 1.0725
29.8 km/s (Earth velocity) = 27.78 km/s (The moon velocity) x 1.0725
We know the rate 1.0725 is found by Lorentz length contraction effect- and we know this rate has effect on around 40% of all planets data – that's why we see this rate has effect on the planets velocities definition-
Let's remember the question-
In the rule (v1v2=322) we found that Pluto is complementary with Venus because
4.7 km/s (Pluto velocity) x 35 km/s (Venus velocity) x 2 = 322
But in the rule (v1v2 =1) we found Pluto is complementary with the moon because
0.406 mkm (Pluto Velocity Daily) x 2.4 mkm (The Moon Velocity Daily) = 1
The question asked – if the planets velocities are defined in pairs complementary each other and not individually how can the players be changed?
The answer tells – the planets velocities are rated by (0.8) based on the planets order means – the moon velocity daily 2.4 mkm = Venus velocity daily 3.024 mkm x 0.8
The rate (0.8) defines all planets velocities depend on each other by order-
Now let's see Planet velocity final definition – because- the definition uses three planets velocities together and not only two – let's put that clearly in following-
(iv) The Planet Velocity Final Definition
(A)
47.4 km/s (Mercury velocity) x 0.8 = 38 km/s (Venus velocity 35 km/s)
Venus moves per solar day 3.024 million km -But
1/3.024 = 0.3307 million km = Uranus moves per solar day 0.5875 million km /1.77
(note 1.77 = π^1/2) and (38 = 35 x 1.0725)
For that
47.4 km/s (Mercury velocity) x 6.8 km/s (Uranus velocity) = 322
(B)
35 km/s (Venus velocity) x 0.8 = 27.78 km/s (The Moon velocity)
The moon moves per solar day 2.4 million km -But
1/2.4 = 0.406 million km = Pluto moves per solar day 0.406 million km
For that
35 km/s (Venus velocity) x 4.7 km/s (Pluto velocity) x 2 = 322
(C)
29.8 km/s (The Earth velocity) x 0.8 = 24.1 km/s (Mars velocity)
Mars moves per solar day 2.082 million km -But
1/2.082 = 0.4665 million km = Neptune moves per solar day 0.4665 million km
For that
29.8 km/s (The Earth velocity) x 5.4 km/s (Neptune velocity) x 2 = 322
(D)
13.1 km/s (Jupiter velocity) x 0.8= 2 x 5.24km/s (Neptune velocity 5.4 km/s error 3%)
Neptune moves per solar day 0.4665 million km - But
1/0.4665 = 2.082 million km = Mars moves per solar day 2.082 million km
For that
13.1 km/s (Jupiter velocity) x 24.1 km/s (Mars velocity) = 322
Shortly
Three planets velocities are defined in each equation- that tells the planet velocity definition is a process more complex than the simple equation (v1v2= constant)
Notice
The 9 planets velocities total is 176 km/s – if we add the Earth moon velocity (29.8 km/s) the total will be 205.8 km/s
The planets velocities are complementary also for this velocity 205.8 km/s – let's see
205.8 km/s = Mercury velocity (47.4 km/s) x Pluto velocity (4.7 km/s) / 1.0725
205.8 km/s = Venus velocity (35 km/s) x Neptune velocity (5.4 km/s) x 1.0725
205.8 km/s = Earth velocity (29.8 km/s) x Uranus velocity (6.8 km/s)
205.8 km/s = Jupiter velocity (13.1 km/s) x Neptune velocity (5.4 km/s) x 3
Mercury velocity = 2 Mars velocity by that Pluto will be used for Mars also
Max error (3%)
Please Note- Saturn is exceptional because
205.8 km/s = 9.7 km/s (Saturn velocity) x 21.4
Where 21.4 hours = 2 x 10.7 hours (Saturn rotation period)
Means- the distance is passed by all planets motions in one hour equal the distance is passed by Saturn in 2 rotation periods (21.4 hours) that tells more analysis is required for Saturn velocity- as we should do later.
(v)
A Question (Why Is The Rate (0.8) Used To Define Each Planet Velocity Based On Its neighbor?)
Kepler stated (Planet orbit defines its velocity) and
My planet orbital distance equation proves each planet orbit is defined based on its neighbor – means- my equation uses only 2 neighbor planets orbital distances
Here also-Planet velocity is defined based on its neighbor – means- this connection enabled Kepler to conclude his statement (Planet orbit defines its velocity)
But Why The Rate (0.8)??
The rate (0.8) is found by the energy reflection effect on Planets velocities definition, for that we need to analyze the energy reflection process deeply to see how the planet velocity is defined by it - The energy reflection process is discussed deeply in the first hypothesis explanation- let's start its discussion in following…
II- The Hypothesis Explanation In Details
Let's remember the paper first hypothesis
The solar system is one energy moves in space and reflects 3 times - the points of the reflection are the planets- as a result- the planets are created depending on each other by this energy reflection.
In following we discuss the energy reflection process in details because the planet velocity definition proves the planets data is reflected on each other and we here try to see as deep as possible how this reflection process is done – the discussion is divided into 5 items which are
Item No. 1 The Energy Reflection Definition
Item No. 2 The Energy Reflection Proves
Item No. 3 The Energy Reflection Result
Item No. 4 The Energy Reflection Objective
Item No. 5 Saturn Creation Depends On Uranus And The Earth
Let's start our discussion in following
Item No. 1 The Energy Reflection Definition
Here we define the reflection of energy – let's do that in following
The solar system is one energy- this energy moves through the space- we can imagine this energy as a light beam or electromagnetic wave- and- the data tells this energy is reflected- let's suppose this energy is reflected from the point (A) to the point (B)- now- these points (A and B) are planets in the solar system-
That tells, the planet is a point in space on which the energy is reflected- it's difficult to accept such strange idea- BUT
The planets data is more strong than our evaluation- we will see that- the planets data is created by the reflection of energy- this fact is proved strongly and doubtless-
For that I analyze the reflection of energy process in details because by this process the planets are created and the energy cycle is completed- for that – we examine the reflection of energy deeply - Now- let's define the energy reflection in following
(i)
The energy is reflected three times in the solar system- from Pluto to Neptune (1st reflection) and from Uranus to Jupiter (2nd reflection) and from Venus to Mars (3rd reflection)
The first and second reflections are unified and work together as one reflection only (later will explain why) - by that – the solar system has 2 basic reflections- the reflection in the outer planets and the reflection from Venus and Mars
(ii)
The reflection of energy is proved strongly because the planets data are changed as a result- let's write these changes in following
What's used as (A) before the reflection will be used as (1/A) after the reflection.
What's used as (a distance) before the reflection will be used as (a period of time) after the reflection
The velocities be squared –the rate (v1/v2) before reflection will be (v1/v2)^2 after the reflection.
The energy direction is changed by the reflection usually
The players of the rates of time are reflected also –
These changes are found in all reflections of energy- that's why the proof is powerful and can't be refuted because the planets data shows the reflection process details
(iii)
Let's see the changes in the planets data generally
(Venus reflection)
By this reflection of energy Venus orbital circumference 680 million km will be used as Mars orbital period 687 days and it defines Jupiter orbital period (4331 days = 2π x 687 days) and also Saturn orbital period (10747 days = 4π x 687 days x (1/0.8)) where Uranus orbital inclination (0.8 degrees) creates effect on Saturn data
AND
Venus Orbital Period 224.7 days be used as 227.9 million km (Mars orbital distance)
AND
Also the reflection defines the planets diameters by that
Venus circumference 38025 km = Mars Circumference 21346.6 km x 1.772
(π=3.14159= 1.772^2) (more data about this reflection is discussed later)
(The Outer Planets Reflection)
The reflection is done by Jupiter to Uranus, by that, Jupiter orbital circumference 4900 million km will be used as Uranus orbital period 30589 days where (30589 days = 4900 days x 2π and Neptune orbital period 59800 days = 4900 days x 4π and Pluto orbital period 90560 days = 4900 days x 6π
Notice- the reflection in the outer planets depends basically on Saturn and it's more complex than this simple data but I put similar data for comparison and later we will discuss the details
ALSO
The energy reflection at Venus passes above the Earth to Mars- where the Earth moon suffers from the length contraction effect and its motion distance daily is 2.4 mkm = 2.574 mkm (The Earth motion distance daily) / 1.0725
Similar to that
The energy reflection at Jupiter passes above Saturn to Uranus – Where
Saturn suffers from the length contraction effect because
1433 million km (Saturn orbital distance) x 1.0725 = 2 x 778.6 million km (Jupiter orbital distance) - And- the Earth moon daily displacement is 88000 km and during 10747 days the total be 940 million km=The Earth orbital circumference (where 10747 days = Saturn orbital period)
The previous data shows the reflection energy effect generally- it's important because it compares the data in two different groups and proves the data behaviors are similar- that proves these behaviors are caused by the same one cause-
But we will analyze each reflection in more details to see how each data is created
Item No. 2 The Energy Reflection Proves
(a)
Venus reflection of energy is discussed in item no. (4), But - Here We Analyze The Energy Reflections In The Outer Planets- There are two reflections in the outer planets (from Neptune to Saturn) and (from Uranus to Jupiter)- let's explain the energy trajectory
The energy is sent firstly from Pluto to Neptune and then The energy is reflected from Neptune to Saturn–means- it's one reflection is started by Pluto and finished by Saturn- later the energy is reflected one more time from Uranus to Jupiter- but we have to ask- if the energy was in Saturn orbit why this energy is returned again to Uranus? The reason is–Saturn is created as a result for an interaction between Uranus and the Earth- means- Uranus is Saturn Father- and the energy is got by Saturn sent automatically to Uranus and Uranus reflects this energy to Jupiter- we will discuss the process in details later.
AND
I put Saturn and Uranus relationship analysis in point No. (5) to prove that Saturn is Created by Uranus effect-
(b)
Also there's story I have to summarize before the data discussion-
Pluto energy is reflected to Neptune – this is the first reflection- means- Neptune should send this same energy to Uranus and then to Saturn and the other planets-BUT – Neptune didn't send the energy to Uranus but kept the energy in Neptune orbit – Uranus could not release the energy from Neptune orbit- for that- Uranus created the interaction with the Earth to create Saturn – Saturn is the warrior created to release the energy from Neptune orbit- by that Saturn released the energy from Neptune orbit and sent it immediately to Uranus and Uranus reflected this energy one more time toward Jupiter- this story is told in details in the paper discussion – but I need its summary here to know that- the reflection between Neptune and Saturn is older than the reflection between Uranus and Jupiter and also this story tells us the final energy is found in Jupiter- means- the energy is sent from Pluto and reaches finally to Jupiter before to send to the inner planets-
The energy reflection trajectory is very important to explain how the planets data created for that we need to follow this trajectory- let's review is shortly-
The energy is sent from Pluto to Neptune and Saturn forced Neptune to release this energy- by that the first reflection is from (Neptune to Saturn) –the second reflection is from (Uranus to Jupiter) and we understand that Saturn creation depends on Uranus for that the energy is sent (without reflection from Saturn to Uranus)-
The idea is understandable and clear
(c)
The Basic Rule In The Reflection Of Energy
Please pay attention for this rule because this is the major rule in the energy reflection
If the energy is reflected between two planets– that necessitates to have two equal distances are passed by them.
Example
0.4666 mkm (Neptune motion distance per solar day) = Jupiter motion distance in its rotation period
These are 2 equal distances– and this equality is necessary for the energy reflection process because if the two distances are not equal the energy can't be reflected-
This is similar to the radio sending process – the sender and receiver waves should be equivalent otherwise the radio broadcasting can't be got by the receiver-
The two planets should move two equal distances – this is the major requirement to enable the energy reflection process –otherwise the energy can't be reflected – means- the energy can't be sent in the direction defined by the reflection
Shortly- the reflection process defines the energy new direction but the energy is not sending in this direction unless the receiver planet and the sender planet move equal distances- by this method the energy can be sent into the direction defined by the reflection and that enable the energy reflection process to be done - The planets data analysis will explain this rule clearly – Let's start our analysis for the planets data
DATA
DATA NO. 1
1.1318 mkm (Jupiter motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.421 mkm
0.838 mkm (Saturn motion distance per solar day) x 0.8= 2 x 1.0725 x 0.3129 mkm
0.5875 mkm (Uranus motion distance per solar day) x 0.8 = 0.4666 mkm
0.4666 mkm (Neptune motion distance per solar day) x 0.8 = 0.3736 mkm
0.406 mkm (Pluto motion distance per solar day) x 0.8 = 0.3248 mkm
Where
0.4666 mkm = Jupiter Motion Distance In Its Rotation Period
0.3736 mkm = Saturn Motion Distance In Its Rotation Period
0.421 mkm = Uranus Motion Distance In Its Rotation Period
0.3129 mkm = Neptune Motion Distance In Its Rotation Period
DATA NO. 2
(1/0.838 mkm) = 1.17 mkm = 2 x 0.5875 mkm = π x 0.373 mkm
(1/1.1318 mkm) = 0.8835 mkm = 2 x 0.441 mkm
0.4666 mkm = Neptune Motion Distance Per solar day (with 0.441 mkm error 5%)
Notice 9.7 = 5.4 x 1.8 and 13.1 = 6.8 x 1.92 but 1.92 = 1.8 x 1.0725
13.1 km/s = Jupiter velocity 9.7 km/s = Saturn velocity
6.8 km/s = Uranus velocity 5.4 km/s = Neptune velocity
DATA NO. 3
Jupiter Motion Distance In Its Rotation Period = 0.4666 mkm = Neptune Motion Distance Per Solar Day – And – Saturn Motion Distance In Its Rotation Period 0.3736 mkm x π = 2 x 0.5875 mkm Uranus motion distance per solar day
DATA NO. 4
Saturn Motion Distance Per Solar Day 0.838 mkm = 2 x 0.421 mkm Uranus motion distance in its rotation period
Saturn Motion Distance Per Solar Day 1.1318 mkm = 1.8 x 2 x 0.3129 mkm Neptune motion distance in its rotation period
(3.1 deg (Jupiter axial tilt) – 1.3 deg (Jupiter orbital inclination)= 1.8 deg)
1.8 degrees = Neptune orbital inclination- and
(Saturn velocity = Neptune velocity x 1.8)
Notice
(0.3129 x2 /0.4666) = (13.1/9.7) = (47.4/35) = (0.421 /0.3129) = (0.5/0.373)= (24/32.4) = (21.4/16.1)
DATA NO. 5
0.3736 mkm x 3 = 1.1318 mkm
0.3129 mkm x 3 x (2/π)= 0.5875 mkm
DATA NO. 6
0.3736 mkm x π = 1.17 mkm = 1/0.838 mkm= 2 x 0.5875 mkm And
0.4666 mkm x π = 1.46 but (1/1.46 mkm) = 0.685 mkm = 2 x 0.3424 mkm
DATA NO. 7
(a)
0.4666 mkm + 0.3736 mkm + 0.5875 mkm +0.3129 mkm = 1.7406 mkm
1.7406 mkm = (π x 0.5875 mkm)/1.0725 (error 1%)
(b)
9.9 h + 10.7 h + 17.2 h + 16.1 h = 53.9 hours = π x 17.2 hours
(c)
13.1 km/s + 9.7 km/s + 6.8 km/s +5.4 km/s = 35 km/s = 4 x 8.75 km/s
But 8.75 x (17.2/24) = 6.27 km/s = 6.8 km/s /1.0725
(d)
0.4666 mkm + 0.3736 mkm +0.421 mkm +0.3129 mkm = 1.574 mkm = 0.5 mkm x π
DATA NO. 8
(90560/224.7) x 0.406 = 163.6 = (59800/365.25)
(59800/224.7) x 0.4666 x2 = 248 = (90560/365.25)
Notice (0.816)^2 = 2/3 (error 2%)
DISCUSSION
I have an idea can explain this data, let's write it here
Preface
The solar system is one energy moves through the space and this energy is reflected on different points in the space – these points are the planets – For example–The energy is reflected from one point in space to another- the first point is called (Neptune) and the second point is called (Saturn) by that the two planets data is defined based on each other by the energy reflection effect.
Also
The same one energy is reflected one more time between two other points- the first point is called (Uranus) and the second point is called (Jupiter)- by that the two planets data is defined based on each other by the energy reflection effect.
Means
The solar system is one energy moves in space and this energy is reflected on different points in the space- in details the energy is reflected between two points (Neptune and Saturn) and then the same energy is reflected one more time between two other points (Uranus and Jupiter) by that these 4 planets data is created based on each other by the reflection–here we analyze the 4 planets data to prove this idea
DATA NO. 1 (ANALYSIS)
1.1318 mkm (Jupiter motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.421 mkm
0.838 mkm (Saturn motion distance per solar day) x 0.8= 2 x 1.0725 x 0.3129 mkm
0.5875 mkm (Uranus motion distance per solar day) x 0.8 = 0.4666 mkm
0.4666 mkm (Neptune motion distance per solar day) x 0.8 = 0.3736 mkm
0.406 mkm (Pluto motion distance per solar day) x 0.8 = 0.3248 mkm Where
0.4666 mkm = Jupiter Motion Distance In Its Rotation Period
0.3736 mkm = Saturn Motion Distance In Its Rotation Period
0.421 mkm = Uranus Motion Distance In Its Rotation Period
0.3129 mkm = Neptune Motion Distance In Its Rotation Period
Why is the rate (1.0725) found in the data? because the wave (the energy) moves by speed of light (300000 km/s) in Saturn orbit- means- the wave velocity was 205.8 km/s through Pluto, Neptune and Uranus orbits and this wave velocity is accelerated in Saturn orbit and its velocity be = speed of light =300000 km/s, for that reason the rate (1.0725) is created because this is (Lorentz length contraction effect rate) and it can be produced only by motion with speed = (99% speed of light =297000 km/s)- shortly- the wave velocity be equal=speed of light = 300000 km/s in Saturn orbit, for that the rate (1.0725) is used for Saturn and Jupiter data-
The previous data can be explained simply by my idea- the rate (0.8) is produced by the energy reflection for that the distances be equal based on this rate- the equal distances are found by the reflection of energy (as we cause a light beam to be reflected on some mirror we will find that the original light beam energy equal the reflected one and by that both have equal distances- that's why the distances are equal) –
In details- the data shows clearly we have 2 different reflections- first reflection from Neptune to Saturn and the second reflection from Uranus to Jupiter- for that the distances are equal- Jupiter motion distance per solar day defines Uranus motion distance in its rotation period and vice versa- Uranus motion distance per solar day defines Jupiter motion distance in its rotation period- and also- Saturn motion distance per solar day defines Neptune motion distance in its rotation period and vice versa- Neptune motion distance per solar day defines Saturn motion distance in its rotation period-
Please note
(a)
The reflection of energy causes the distances to be equal and by that the planets do their motions for these equal distances that explains how planet data is created – I want to say- the used method here is the equal distances be produced by the reflection of energy- for example- Saturn motion distance per solar day (0.838 mkm) defines Neptune motion distance in its rotation period ( 0.3129 mkm) that means the distance 0.3129 mkm is defined before Neptune rotation period be defined- and Neptune created its rotation period as 16.1 hours to move this distance which is defined by the energy reflection- that explains how Neptune rotation period be =16.1 hours
(b)
The designer uses the planets rotation periods as comparable with the solar day- means- the equal distances should be passed by the planets – let’s use example – the equal distances are 0.421 mkm for Jupiter and Uranus– known that Jupiter velocity is greater than Uranus velocity- equal distances can be passed only if (one planet uses the solar day while the other planet uses its rotation period- by this method the planet rotation period is defined)
Means- planet rotation period is created comparable to the solar day period by the energy reflection process- the idea is simple and understandable (CONT)
Gerges Francis Tawdrous +201022532292
Physics Department- Physics & Mathematics Faculty
Peoples' Friendship university of Russia – Moscow (2010-2013)
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#Best Regards#The Gravitational Waves Reflection In The Solar System#(Analytical Study) (Revised)#https://app.box.com/s/yx3tx5lsvwy4025p4j3mwfeliwhtka07#or#https://app.box.com/s/9wywdejkxqh7x4g791ntf3p3p01kkm8f#https://www.tumblr.com/itsgerges/759715471336570880/the-gravitational-waves-reflection-in-the-solar?source=share#https://gerges2022.livejournal.com/236389.html#Abstract#Paper question#How Is Planet Velocity Defined?#Paper Hypothesis No. (1)#The solar system is one energy moves in space and reflects 3 times - the points#of the reflection are the planets- as a result- the planets are created#depending one each other by this energy reflection.#The Explanation Of The Hypothesis No. (1)#I- Preface#Why do we need to define Planet velocity#here? Because#Planet velocity definition disproves The#Solar System Classical Description.#II- The hypothesis Explanation in details#1- The Energy Reflection Definition#2- The Energy Reflection Proves#3- The Energy Reflection Result#4- The Energy Reflection Objective#5- Saturn Creation Depends On Uranus And The Earth#Let's explain the previous items in#following#I-
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