I've Not Seen These In Many A Moon. Beautiful.

I hate that I’m always trying to find cool biology themed stuff to wear but all the “nature inspired” clothing companies just have like two crossed arrows or a minimalistic mountain on a sweatshirt. Fucking lame, that’s barely even nature-adjacent. Put the life cycle of a salamander on a jacket, put hyena skeleton patterns on leggings, put a damn field guide of birds of prey on a peacoat and THEN you can have my money. Do NOT give me a shirt with a leaf on it that says “stay wild” or some bullshit I would much prefer clothing that broadcasts to everyone around me how many teeth an adult Jaguar has or how some pitcher plants can catch and digest rats.

By LabradoriteKing on Pinterest

hey can you do me a favor and start that project that you wanted to work on please I am begging you to do the first step

literally only the first step

you only have to do the first step

PLEASE PLEASE I'M BEGGING YOU SO MUCH

like if it's an art project open your art software or gather materials

If it requires reaching out to someone just send that email or whatever

If it's writing please make an outline

etc etc you know what the project is please start it please PLEASE

PLEASE PLEASE PLEASE PLEASE

AAAAAAAAAAAAAAAAAAAA PLEASE

PLEASE PLEASE PLEASE

As someone who probably overuses flower language, this is a very in depth website- https://www.daleharvey.com/in-the-garden/articles-of-interest/LANGUAGE+OF+FLOWERS/Meaning+of+Flowers.html#P

The symbolism of flowers

Flowers have a long history of symbolism that you can incorporate into your writing to give subtext.

Symbolism varies between cultures and customs, and these particular examples come from Victorian Era Britain. You'll find examples of this symbolism in many well-known novels of the era!

Amaryllis: Pride

Black-eyed Susan: Justice

Bluebell: Humility

Calla Lily: Beauty

Pink Camellia: Longing

Carnations: Female love

Yellow Carnation: Rejection

Clematis: Mental beauty

Columbine: Foolishness

Cyclamen: Resignation

Daffodil: Unrivalled love

Daisy: Innocence, loyalty

Forget-me-not: True love

Gardenia: Secret love

Geranium: Folly, stupidity

Gladiolus: Integrity, strength

Hibiscus: Delicate beauty

Honeysuckle: Bonds of love

Blue Hyacinth: Constancy

Hydrangea: Frigid, heartless

Iris: Faith, trust, wisdom

White Jasmine: Amiability

Lavender: Distrust

Lilac: Joy of youth

White Lily: Purity

Orange Lily: Hatred

Tiger Lily: Wealth, pride

Lily-of-the-valley: Sweetness, humility

Lotus: Enlightenment, rebirth

Magnolia: Nobility

Marigold: Grief, jealousy

Morning Glory: Affection

Nasturtium: Patriotism, conquest

Pansy: Thoughtfulness

Peony: Bashfulness, shame

Poppy: Consolation

Red Rose: Love

Yellow Rose: Jealously, infidelity

Snapdragon: Deception, grace

Sunflower: Adoration

Sweet Willian: Gallantry

Red Tulip: Passion

Violet: Watchfulness, modesty

Yarrow: Everlasting love

Zinnia: Absent, affection

Honestly.

When people like my silly lil collages I'm like, !?!?!?!

If u interact with my posts, just know I respond like this:

https://twitter.com/profannieoakley/status/1357768408671027202

 This thread is gold… make your own here: https://htck.github.io/bayeux/#!/

The problem with adults is that they don't have sleepovers where they transition between fun movie and snack time to psychoanalyzing themselves in the safety of the others

Seeing the Invisible Universe

This computer-simulated image shows a supermassive black hole at the core of a galaxy. The black region in the center represents the black hole’s event horizon, beyond which no light can escape the massive object’s gravitational grip. The black hole’s powerful gravity distorts space around it like a funhouse mirror. Light from background stars is stretched and smeared as it skims by the black hole. You might wonder — if this Tumblr post is about invisible things, what’s with all the pictures? Even though we can’t see these things with our eyes or even our telescopes, we can still learn about them by studying how they affect their surroundings. Then, we can use what we know to make visualizations that represent our understanding.

When you think of the invisible, you might first picture something fantastical like a magic Ring or Wonder Woman’s airplane, but invisible things surround us every day. Read on to learn about seven of our favorite invisible things in the universe!

1. Black Holes

This animation illustrates what happens when an unlucky star strays too close to a monster black hole. Gravitational forces create intense tides that break the star apart into a stream of gas. The trailing part of the stream escapes the system, while the leading part swings back around, surrounding the black hole with a disk of debris. A powerful jet can also form. This cataclysmic phenomenon is called a tidal disruption event.

You know ‘em, and we love ‘em. Black holes are balls of matter packed so tight that their gravity allows nothing — not even light — to escape. Most black holes form when heavy stars collapse under their own weight, crushing their mass to a theoretical singular point of infinite density.

Although they don’t reflect or emit light, we know black holes exist because they influence the environment around them — like tugging on star orbits. Black holes distort space-time, warping the path light travels through, so scientists can also identify black holes by noticing tiny changes in star brightness or position.

2. Dark Matter

A simulation of dark matter forming large-scale structure due to gravity.

What do you call something that doesn’t interact with light, has a gravitational pull, and outnumbers all the visible stuff in the universe by five times? Scientists went with “dark matter,” and they think it's the backbone of our universe’s large-scale structure. We don’t know what dark matter is — we just know it's nothing we already understand.

We know about dark matter because of its gravitational effects on galaxies and galaxy clusters — observations of how they move tell us there must be something there that we can’t see. Like black holes, we can also see light bend as dark matter’s mass warps space-time.

3. Dark Energy

Animation showing a graph of the universe’s expansion over time. While cosmic expansion slowed following the end of inflation, it began picking up the pace around 5 billion years ago. Scientists still aren’t sure why.

No one knows what dark energy is either — just that it’s pushing our universe to expand faster and faster. Some potential theories include an ever-present energy, a defect in the universe’s fabric, or a flaw in our understanding of gravity.

Scientists previously thought that all the universe’s mass would gravitationally attract, slowing its expansion over time. But when they noticed distant galaxies moving away from us faster than expected, researchers knew something was beating gravity on cosmic scales. After further investigation, scientists found traces of dark energy’s influence everywhere — from large-scale structure to the background radiation that permeates the universe.

4. Gravitational Waves

Two black holes orbit each other and generate space-time ripples called gravitational waves in this animation.

Like the ripples in a pond, the most extreme events in the universe — such as black hole mergers — send waves through the fabric of space-time. All moving masses can create gravitational waves, but they are usually so small and weak that we can only detect those caused by massive collisions.  Even then they only cause infinitesimal changes in space-time by the time they reach us. Scientists use lasers, like the ground-based LIGO (Laser Interferometer Gravitational-Wave Observatory) to detect this precise change. They also watch pulsar timing, like cosmic clocks, to catch tiny timing differences caused by gravitational waves.

This animation shows gamma rays (magenta), the most energetic form of light, and elusive particles called neutrinos (gray) formed in the jet of an active galaxy far, far away. The emission traveled for about 4 billion years before reaching Earth. On Sept. 22, 2017, the IceCube Neutrino Observatory at the South Pole detected the arrival of a single high-energy neutrino. NASA’s Fermi Gamma-ray Space Telescope showed that the source was a black-hole-powered galaxy named TXS 0506+056, which at the time of the detection was producing the strongest gamma-ray activity Fermi had seen from it in a decade of observations.

5. Neutrinos

This animation shows gamma rays (magenta), the most energetic form of light, and elusive particles called neutrinos (gray) formed in the jet of an active galaxy far, far away. The emission traveled for about 4 billion years before reaching Earth. On Sept. 22, 2017, the IceCube Neutrino Observatory at the South Pole detected the arrival of a single high-energy neutrino. NASA’s Fermi Gamma-ray Space Telescope showed that the source was a black-hole-powered galaxy named TXS 0506+056, which at the time of the detection was producing the strongest gamma-ray activity Fermi had seen from it in a decade of observations.

Because only gravity and the weak force affect neutrinos, they don’t easily interact with other matter — hundreds of trillions of these tiny, uncharged particles pass through you every second! Neutrinos come from unstable atom decay all around us, from nuclear reactions in the Sun to exploding stars, black holes, and even bananas.

Scientists theoretically predicted neutrinos, but we know they actually exist because, like black holes, they sometimes influence their surroundings. The National Science Foundation’s IceCube Neutrino Observatory detects when neutrinos interact with other subatomic particles in ice via the weak force.

6. Cosmic Rays

This animation illustrates cosmic ray particles striking Earth's atmosphere and creating showers of particles.

Every day, trillions of cosmic rays pelt Earth’s atmosphere, careening in at nearly light-speed — mostly from outside our solar system. Magnetic fields knock these tiny charged particles around space until we can hardly tell where they came from, but we think high energy events like supernovae can accelerate them. Earth’s atmosphere and magnetic field protect us from cosmic rays, meaning few actually make it to the ground.

Though we don’t see the cosmic rays that make it to the ground, they tamper with equipment, showing up as radiation or as “bright” dots that come and go between pictures on some digital cameras. Cosmic rays can harm astronauts in space, so there are plenty of precautions to protect and monitor them.

7. (Most) Electromagnetic Radiation

The electromagnetic spectrum is the name we use when we talk about different types of light as a group. The parts of the electromagnetic spectrum, arranged from highest to lowest energy are: gamma rays, X-rays, ultraviolet light, visible light, infrared light, microwaves, and radio waves. All the parts of the electromagnetic spectrum are the same thing — radiation. Radiation is made up of a stream of photons — particles without mass that move in a wave pattern all at the same speed, the speed of light. Each photon contains a certain amount of energy.

The light that we see is a small slice of the electromagnetic spectrum, which spans many wavelengths. We frequently use different wavelengths of light — from radios to airport security scanners and telescopes.

Visible light makes it possible for many of us to perceive the universe every day, but this range of light is just 0.0035 percent of the entire spectrum. With this in mind, it seems that we live in a universe that’s more invisible than not! NASA missions like NASA's Fermi, James Webb, and Nancy Grace Roman  space telescopes will continue to uncloak the cosmos and answer some of science’s most mysterious questions.

Make sure to follow us on Tumblr for your regular dose of space!