Where does the stream leave long strands of silver

• Plants • Native Plants • Find The Perfect Plant • Flowers • Trees & Shrubs • Vines • Vegetables & Herbs • Ground Cover • Cacti & Succulents • Ferns • Houseplants • Invasive Plants & Weeds • Backyard Wildlife • Birds • Insects • Mammals • Reptiles & Amphibians • Wildlife Habitat • Garden Pests • Garden Solutions • Shade Areas • Wet Soils • Deer-resistant • Drought-tolerant • Heat-tolerant • Low maintenance • Projects & Ideas • Tools & Products • Fun Nature Stuff • Botanical Gardens • Butterfly Houses • Fungi • Outdoor Fun • Search this website It’s springtime! The sun is shining, the flowers are starting to bloom, and pollen is coating everything, including our cars. Even the We have been finding all sort of tree seeds and tree reproductive parts laying on the ground around our neighborhood. From the brown stringy stuff to the tiny helicopters and funny little worm-shaped things, spring tree droppings are clogging the gutters of our streets. The Brown Stringy Things On the Ground: Oak Tree Catkins What is that brown stuff that falls from oaks trees in the spring? They are crumbly, fragile, messy, and everywhere! As soon as you touch one, tons of tiny grains fall off creating even more of a mess. If you track them in the house with your shoes, you’ll soon have grit covering your floors. These stringy brown tassels are called catkins or tassels. They are the male pollen structures produced by oak trees ( Quercus spp.). They hang in the trees like tassels on the end of bike ...

Your hair follicles have pigment cells that make melanin, a chemical that gives your hair its color. As you age, these cells start to die. Without pigment, new hair strands grow in lighter and take on various shades of gray, silver, and eventually white. Once a follicle stops making melanin, it won’t make colored strands again. They could. These conditions include: • Lack of vitamin B 12 • Certain rare, inherited tumor conditions • Thyroid disease • Vitiligo, a condition that destroys pigment-making cells in the scalp Alopecia areata causes patches of hair (usually ones with color) to fall out. This can look like sudden graying because the hair that’s left is gray or white. When your hair regrows, it could be gray, white, or your normal color. There’s an old wives’ tale that says if you pluck a gray, three will grow back. That doesn’t happen. Still, don’t pluck. You’re just delaying the inevitable -- another gray strand will replace it. Besides, pulling hair out can damage follicles so much, they no longer grow hair. This can make your mane look thin over time. Gray hair is thinner than hair with natural color because its cuticle is thinner. Your hair needs that natural protection from water, ultraviolet rays from the sun, humidity, chemicals, and heat styling. Without that barrier, your hair loses water. So your gray will feel dry, fragile, and coarse. African American hair tends to be more prone to damage, compared to that of Asians and whites. Black people’s hair usuall...

Microfilament Definition Microfilaments, also called actin filaments, are polymers of the protein actin that are part of a cell’s cytoskeleton. The cytoskeleton is the network of protein filaments that extends throughout the cell, giving the cell structure and keeping organelles in place. Microfilaments are the smallest filaments of the cytoskeleton. They have roles in cell movement, muscle contraction, and cell division. Microfilament Structure Microfilaments are composed of two strands of subunits of the protein actin (hence the name actin filaments) wound in a spiral. Specifically, the actin subunits that come together to form a microfilament are called globular actin (G-actin), and once they are joined together they are called filamentous actin (F-actin). Like microtubules, microfilaments are polar. Their positively charged, or plus end, is barbed and their negatively charged minus end is pointed. Polarization occurs due to the molecular binding pattern of the molecules that make up the microfilament. Also like microtubules, the plus end grows faster than the minus end. Microfilaments are the thinnest filaments of the cytoskeleton, with a diameter of about 6 to 7 nanometers. A microfilament begins to form when three G-actin proteins come together by themselves to form a trimer. Then, more actin binds to the barbed end. The process of self-assembly is aided by autoclampin proteins, which act as motors to help assemble the long strands that make up microfilaments. Two lo...

There’s a lot of confusion over how Norwex BacLock microfiber cloths work and what exactly the silver does. All Norwex microfiber works amazingly to clean surfaces and pick up dirt and bacteria, but here are … 5 THINGS YOU SHOULD KNOW ABOUT YOUR BACLOCK CLOTHS: • The Microfiber Cloth cleans your house (or car, or boat…) and the silver agent cleans your microfiber cloth! Let me phrase that another way: THE SILVER DOES NOTCLEAN THE SURFACE. Once you’ve wiped up dirt, bacteria and viruses with your Antibac cloth, the silver works to inactivate the bacteria and viruses within the cloth. It does this by suffocating the bacteria so that it doesn’t get the oxygen it needs to survive. After about 18 to 20 hours, your Norwex Antibac cloth will be much cleaner than it was when you finished cleaning with it. The key point here is that the silver agent does NOT help in the cleaning of surfaces. It’s only when you’re done cleaning that the silver starts working. • The Silver is embedded into every strand of the microfiber and cannot be separatedfrom the fibers. It is NOT nano-silver. It is significantly larger than nano-silver and cannot penetrate the skin. • Your Norwex BacLock/Antibac cloth must be wet to activate the silver. So if you’ve been using the Antibac cloth (or dusting mitt) dry and want to get rid of any bacteria that was picked up, you’ll need to moisten the cloth. • It will take 18 to 20 hoursfor the silver in your antibac cloth to inactivate the bacteria. • Sometimes th...

When connecting a stranded wire to a solid wire in a wire nut (for example connecting a ceiling fan's internal wiring to the house wiring), I know that I should tightly twist the stranded wires and that they should lead the solid wire(s) by a little bit as I put them into the wire nut to ensure a tight connection. I've seen many recommendations here, though, of using stranded wire as the house wiring (when pulled through conduit) with accompanying admonishments to ensuring that the stranded wires are "properly prepared" before clamping them down under a screw terminal (at an outlet, switch, or other) to ensure a safe and secure connection. What's required to "properly prepare" these wires to make that safe connection? I'd presume that after proper preparation, the stranded wire will look essentially like a solid wire would under the screw terminal. If that's an incorrect presumption, what should it look like? All the strands staying under the screw is the tough part. Twisting enough for good contact is just less than twisting too much and breaking some strands. Something like solder would be nice, but think that is a big no-no. One suggestion(from a question today) on using stranded wire was to wire nut a short piece of solid for under the screw. As a Brit who uses far more stranded wire than solid [I don't do first fixes, that's someone else's job], there are two ways to do it 'properly', but this can depend on how much room you have in your screw-down terminal. • Proper-...

Ans: Arthur Rimbaud is the writer of the poem Asleep in the Valley. 2. What type of poem is ‘Asleep in the Valley?‘ Ans: This poem is a Petrarchan sonnet. 3. What is the theme of the poem ‘Asleep in the Valley?’ Ans: War/Futility of war/pity of war is the main theme of the poem ‘Asleep in the Valley.’ 4. How does the young soldier lie? Ans: The young soldier lies open-mouthed. 5. What does fill the hollow full of light? Ans: The sun’s rays fill the hollow full of light. 6. Who fails to distrub the rest of the soilder ? Ans: The humming insects fail to distrub the rest of the soilder. 7. How is the smile of the young soldier described in the poem? Ans: In the poem the young soldier’s smile is described as gentle and innocent like that of an infant’s. 8. Why don’t the humming insects distrub him? Ans: The humming insects do not distrub the soilder because he is dead. 9. What are there in the the soilder’s side? Ans: There are two red holes in the soilder’s side. 10. Describe the bed on which the Soilder lies asleep. Ans: The bed on which the soilder lies asleep is warm, green and sun – soaked. 11. What is the soilder’s pillow made of? Ans: The soldier’s pillow is made of fern. 12. How does the poet bring out the innocence of the soldier in ‘Asleep in the Valley’? [H.S. – 2018] Ans: The poet brings out the innocence of the soldier by describing his smile as gentle without guile like an infant’s. 13. What are the insects doing? Ans: The insects are humming and trying to distur...

When spiders sense an electric field, they stick their spinnerets into the air and release silk. Called “tiptoeing,” this means spiders are ready for take-off. Photo by Michael Hutchinson The origins of Morley’s study date back five years to an unlikely source: an astrophysicist at the University of Hawaii named Peter Gorham. Gorham was reading Charles Darwin’s observations of spiders ballooning en masse aboard a ship at sea. Darwin wondered if the spiders were using electrostatics to take off. Gorham wondered if Darwin was right. So he turned the question into a simple physics problem. “When I worked through the numbers it looked quite compelling,” Gorham said. “This was a plausible explanation for not all of the flight but at least for some of it.” Gorham Scientists have long known that air currents can lift spiders high into the air, allowing the eight-legged critters But the idea that an electric field can also pull on spider strands had been dismissed 200 years ago. “In the early 1800s, there were arguments that spiders might be using electric fields to balloon, but then there were also people arguing that it was wind,” said Morley. “And the argument for wind won over probably because it’s more obvious.” Since then, scientists discovered a naturally-occuring global electric field — located between the negatively charged surface of the Earth and the positively charged air residing 50 to 600 miles up, known as the ionosphere. But until five years ago, no one had revisit...