1.THE EARTH LEAD OR CONTROL PROTECTION CIRCUIT IN ELECT RIC FIELD CAN BE REFERRED AS: the finally brought back wire(cable)to the consumer's earth terminal and the earting lead connects this terminal to the earth electrode 2.EARTH ELECTRODE; can be referred as the electrode which makes connection to the general mass.it may be a cooper rod,tape or plateor a constructed lattice-type metal material depending onthe nature of the sub soil.Mr maganga from songea,Tanzania
The element for lead is Pb. Lead is relatively abundant on Earth, with an estimated abundance in the Earth's crust of about 13 parts per million.
Uranium-lead dating is commonly used to determine the age of Earth. This method relies on the radioactive decay of uranium isotopes into lead isotopes over time. By measuring the ratio of uranium to lead in rocks, scientists can estimate the age of Earth.
The amount of uranium on Earth has remained relatively constant over geologic time, as uranium is a naturally occurring element that is not created or destroyed in significant amounts. On the other hand, the amount of lead on Earth has increased over time due to the radioactive decay of uranium and other elements that eventually form lead isotopes as byproducts.
Lead is a heavy metal that is naturally found in the Earth's crust. It is usually found in combination with other elements such as sulfur (galena) or oxygen (lead oxide). Lead can also be man-made and is commonly used in batteries, construction materials, and ammunition.
Greenhouse gases (GHG) allows sun radiation to penetrate and reach earth but are insulators to heat to move through into outer space. According GHG contribute to global warming. This global warming could lead to more snow melt down that lead to rise of water levels on earth and possible sinking of low level earth areas under water.
The element lead is part of the Earth. The lead that we use in everyday things is mined from the Earth.
The element for lead is Pb. Lead is relatively abundant on Earth, with an estimated abundance in the Earth's crust of about 13 parts per million.
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yup
The attraction of the Earth for a kilogram of lead is equal in magnitude but opposite in direction to the attraction of kilogram of lead for the Earth, according to Newton's third law of motion. Both objects experience an equal gravitational force due to their masses.
Lead comes from the earth. Of course, everglades (real Christmas trees) are made from the earth, so during the time that the trees were growing, lead contaminated it. If you have an artificial tree, during the making, packaging, or shipping lead may have entered it. It could also be the fact that the materials ( plastics, coloring, ect.) made from the earth could of contained lead.
No, it wouldn't. Eath is much larger no matter how many kg of lead there is. Mashmallows are much too small. Earth is very big.
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Look at the position of Pb in the periodic table and the postion of the Alkali Earth metals. Alkali Earth Metals are in noble-gas configuration when they are doubly charged cations. Lead however is on the right hand side, and would like to have more electrons to get into that stablest configuration; making the bonds in lead-compounds more covalent -and stronger- in nature. Insoluble compounds have lattice enthalpies higher than the enthalpy of solvation. Now since Alkali Earth metals like to be in ionic states; their compounds will dissolve in general more easily than the same compounds with lead, since usually the lattice energy of lead compounds is much higher (In case of insoluble compounds higher than the energy that would be released upon solvation, which thus doesn't occur).
A high mountain made of lead is impossible on Earth because lead is a heavy metal that is not naturally found in large concentrations in mountainous formations. Additionally, lead is not a primary component of Earth's crust, which is composed mainly of lighter materials like silicon and oxygen. The weight and density of lead would also make constructing and supporting a mountain made of lead impractical.
Uranium-lead dating is commonly used to determine the age of Earth. This method relies on the radioactive decay of uranium isotopes into lead isotopes over time. By measuring the ratio of uranium to lead in rocks, scientists can estimate the age of Earth.