The Detroit Lions, they're dumb, lazy, and always fail.
Please note that electrical current, which is the flow of electrons, is what flows, not "electricity", which is the entire body of phenomenon around current, voltage, impedance, power, etc. Electric current is a flow of electrically charged atomic particles known as electrons. In metallic wires, the electric charge in a current is carried by electrons that orbit the nuclei of atoms. Each electron carries a small negative electric charge. When a stream of electrons moves from though the structure of a substance, the flow of the charge they carry is called electric current. Each atoms has negative and positive electric charges which, like magnetic poles, attract each other. When there is a difference in the overall charge of atoms between the two ends of a wire, the negatively charged electrons will flow toward the positively charged end of the wire, creating electric current. Electric currents can also be caused due to the flow of other types of charged particles such as charged atoms or ions. Ionic flow of electricity is quite common in liquid and gaseous substances. Electric shocks in humans and animals, lightning, or the flow of electricity inside a conventional battery are examples of ionic electricity.
Not long after Majin Buu was defeated, Vegeta was taken back to the Negetive Other-World. All of the evil beings fused into a Super Evil being know as Janempa. This evil being used illusion and trickery to make Goku use a Ka-me-ha-me ha on himself. Goku went into Super Saiyen 2 and beat him up. Janempa turned into Super Janempa, this time he was much more powerful. Goku transformed into Super Saiyen 3 and Vegeta into Super Saiyen 2. The fought with the evil being but they had hardley even scratched the surface. Just like in the fight against Super Buu, they needed to fuse. This time the used the fusion techneque, instead of the potara earings. Thus forming Gogeta, he looked like a Normal Super Saiyen, but was far more powerful. He used a new power, not used before or again in the whole of DB, DBZ or GT, called Stardust Breaker. This broke apart all of Janempa's atoms and he was gone. The fusion wore off and the returned to normal. As stated before, Vegeta is dead. But due to his willingness to save the world, King Yemma granted him another shot at life. Thus they returned to Earth and waited... About a year later a little old man asked the Z Fighters to free an Alien called Tapion. Inside him was sealed an ancient Dragon called Hirudegarn. (Search for DBZ Movie: Hirudegarn) This all happened before the world tournement where Goku met Uub. Goku used his newly acheived Super Saiyen 3 form for the third time after defeating Majin Buu. He then used a his Hyper (or for U.S, Super) Dragon Fist to end Hirudegarn. Soon after, Majin Buu, the good one or the Fat one, fixed the tournements results to make Goku fight a new child called Uub (which is Buu spelt backwards). Goku new of his great power and said to him (to wind him up, not being evil) "Your mother is fat, your father is a bum!" Uub exploded and fought Goku, of course, he was no match. Goku then trained him. Many years later, in a new series called Dragon Ball GT, Goku had a granddaughter, Pan. And they trained for a bit until a new villain called Baby appeared. He was from a race called the Tuffles. They used to live on Planet Vegeta, but the saiyens kill them. Baby got into Gotens body (who was now grown up). He infested the other Z fighters and Vegeta confronted him. But was taken over himself, as Baby got into his body through a cut on his face. Goku, who was wished into being a kid again, by Garlic Junior, faced Baby at Super Saiyen 3. But failed to win. When he was a child Goku had a tail, thus in his childlike form, he had his tail back. This meant he could turn into an Oozaruu. A giant ape monkey thing. But this time, he was a golden Oozaruu (basicly a Super Saiyen monkey). Pan tried to make him turn back, but failed. She cried and Goku saw it. In a massive explosion of Power Goku turned into a Super Saiyen 4. He easily overcame Baby by blasting him into the Sun. But before he did that, Goku had beaten up Vegeta's body so Baby left it, and was off guard. The Z fighters then had to face a newly rebuilt Super Andriod 17. Goku defeated him, just, with a Kamehameha to the face. Then the most powerful oppenent they must ever face. A dragon, called Syn Shenron. He had absord all of the Dragon Balls exept the 4 star, which Goku swallowed. Vegeta used a Blutz Wave Generater to become Super Saiyen 4. They fought the Dragon, after absorbing the Dragonballs he became Omega Shenron. They were defeated. They fused into Super Saiyen 4 Gogeta. He was so powerful that he can only exist for 10 minutes. They tried fusing again, but Goku had used all of his power, and turned back into his normal form. Vegeta had to fight alone. No match, Vegeta was defeated. Shenron prepared to destroy Earth, but Goku had amassed a Spirit Bomb the size of the Moon, with enough power to Destroy most of the Universe. He launched it at Omega Shenron and killed him. The world was safe, now and forever. That is what happened after Majin Buu. In contradiction (that means to argue with) the answer before, Uub was only human. With a fraction of Majun Buu's power. The two (Uub and Buu) fused perminantly to create Majuub. But still his powerlevel was tiny compared to Omega Shenron. He would have been killed in under a second if Shenron wanted it. Thank you, I enjoyed answer that question, it brings back alot of good memories.
Beer's Law, also known as the Beer-Lambert law, relates the attenuation, or reduction, of light to the properties of the material it passes through. It's mainly related to the BGK model, which is a mathematical model that helps describe collisions of particles.
Diamond is the worlds hardest mineral, ranking a 10 out of 10 on Moh's Hardness ScaleWell Diamond is WRONG.It no longer the hardest mineral.Currently, diamond is regarded to be the hardest known material in the world. But by considering large compressive pressures under indenters, scientists have calculated that a material called wurtzite boron nitride (w-BN) has a greater indentation strength than diamond. The scientists also calculated that another material, lonsdaleite (also called hexagonal diamond, since it's made of carbon and is similar to diamond), is even stronger than w-BN and 58 percent stronger than diamond, setting a new record.This analysis marks the first case where a material exceeds diamond in strength under the same loading conditions, explain the study's authors, who are from Shanghai Jiao Tong University and the University of Nevada, Las Vegas. The study is published in a recent issue of Physical Review Letters."The new finding from our results is that large normal compressive pressures under indenters can transform certain materials (such as w-BN and lonsdaleite) into new superhard structures that are harder than diamond," coauthor Changfeng Chen from the University of Nevada, Las Vegas, told PhysOrg.com. "This is a new mechanism that can be used to design new superhard materials."The scientists explain that the superior strength of w-BN and lonsdaleite is due to the materials' structural reaction to compression. Normal compressive pressures under indenters cause the materials to undergo a structural phase transformation into stronger structures, conserving volume by flipping their atomic bonds. The scientists explain that w-BN and lonsdaleite have subtle differences in the directional arrangements of their bonds compared with diamond, which is responsible for their unique structural reaction.Under large compressive pressures, w-BN increases its strength by 78 percent compared with its strength before bond-flipping. The scientists calculated that w-BN reaches an indentation strength of 114 GPa (billions of pascals), well beyond diamond's 97 GPa under the same indentation conditions. In the case of lonsdaleite, the same compression mechanism also caused bond-flipping, yielding an indentation strength of 152 GPa, which is 58 percent higher than the corresponding value of diamond."Lonsdaleite is even stronger than w-BN because lonsdaleite is made of carbon atoms and w-BN consists of boron and nitrogen atoms," Chen explained. "The carbon-carbon bonds in lonsdaleite are stronger than boron-nitrogen bonds in w-BN. This is also why diamond (with a cubic structure) is stronger than cubic boron nitride (c-BN)."
Yes, electron microscopes are powerful enough to magnify atoms to the point where they can be observed. These microscopes use a beam of electrons to achieve much higher magnification and resolution than traditional light microscopes. However, atoms themselves are much smaller than the wavelength of visible light, so they cannot be directly observed with optical microscopes.
there is and its called an scanning tunneling. ============== Sorry but this above answer is false there is NOT any instruments powerful enough to magnify atoms so that they can be seen. The model of an atom we have is a theory because we can't prove the way it looks. The Atom as we know it is just a theroy. Why would this be if we could see an atom. So again no there is NOT an instrument powerful enough to do this.
Scientists can look at individual atoms using powerful tools such as scanning tunneling microscopes or atomic force microscopes. These instruments use a fine probe to scan the surface of a material at the atomic level, providing detailed images of individual atoms.
Yes, ionizing radiation is powerful enough to remove electrons from atoms or molecules, resulting in the formation of ions. This process can lead to chemical changes in the substance being irradiated.
No, compound microscopes use visible light and have a limited resolution of about 200 nanometers, preventing them from seeing atoms which are much smaller in size at around 0.1 nanometers. Specialized instruments like electron microscopes are needed to visualize atoms.
An atomic microscope
It is like a spreading atoms. When atoms is hit with another, it will spreading into other atoms and become bigger. That is why it is so powerful...
Because traditional optics cannot magnify something the size of an angstrom to a level viewable by the human eye. In addition atoms move faster than a human could track.
No, an atom or atoms are concrete nouns; even if you can't see them with the naked eye, they are the building blocks, a part of everything you can see or touch. Atoms can be measured and counted with scientific instruments.
Nuclear
to make the images ,scientists use special instruments such as electron microscopes and x-rays miscroscopes
to make the images ,scientists use special instruments such as electron microscopes and x-rays miscroscopes