Easy Electronics
... electricity to flow in one direction but not the other Near the PN junction the electrons diffuse into the vacant holes in the P material causing a depletion zone. This depletion zone acts like an insulator preventing other free electrons in the N-type silicon and holes in the P-type silicon from co ...
... electricity to flow in one direction but not the other Near the PN junction the electrons diffuse into the vacant holes in the P material causing a depletion zone. This depletion zone acts like an insulator preventing other free electrons in the N-type silicon and holes in the P-type silicon from co ...
Chapter 10 You are driving down the highway at 55mph with your
... 8. If a 3hp fluid pump is operating at 60psi, what is the flow rate out of it? 9. In the absence of friction if a fluid is flowing through a pipe and the pipe narrows and the speed of the fluid increases so that its kinetic energy doubles, how many times does the fluids energy from pressure change? ...
... 8. If a 3hp fluid pump is operating at 60psi, what is the flow rate out of it? 9. In the absence of friction if a fluid is flowing through a pipe and the pipe narrows and the speed of the fluid increases so that its kinetic energy doubles, how many times does the fluids energy from pressure change? ...
Chapter 4 Reactions in Aqueous Solutions
... The oxidation number of H decreases; it is reduced; H2SO4 is the oxidizing agent. ...
... The oxidation number of H decreases; it is reduced; H2SO4 is the oxidizing agent. ...
view - Meritnation
... narrow belt of insulating material is wound around two pulleys P1 and P2. B1 and B2 are two sharply pointed metal combs. B1 is called the spray comb and B2 is called the collecting comb. Working – The spray comb is given a positive potential by high tension source. The positive charge gets sprayed o ...
... narrow belt of insulating material is wound around two pulleys P1 and P2. B1 and B2 are two sharply pointed metal combs. B1 is called the spray comb and B2 is called the collecting comb. Working – The spray comb is given a positive potential by high tension source. The positive charge gets sprayed o ...
ELECTRIC SHOCK
... Your body is an electrical conductor and a current will flow through it when you touch a live conductor and make a connection to earth. Most electric shocks occur because of earth faults, i.e. the earth conductor on an appliance is either broken or not connected. So in case of direct contact between ...
... Your body is an electrical conductor and a current will flow through it when you touch a live conductor and make a connection to earth. Most electric shocks occur because of earth faults, i.e. the earth conductor on an appliance is either broken or not connected. So in case of direct contact between ...
CVB101 – Lecture 3 Chemical Bonding • Chemical bonding
... The maximum amount of solute that will dissolve in a given quantity of solvent (at a specific temperature) Some compounds are very soluble e.g. NaCl o It is possible to make very concentrated solutions on NaCl Other compounds are not very soluble e.g. AgCl o If AgCl solid is placed in water, o ...
... The maximum amount of solute that will dissolve in a given quantity of solvent (at a specific temperature) Some compounds are very soluble e.g. NaCl o It is possible to make very concentrated solutions on NaCl Other compounds are not very soluble e.g. AgCl o If AgCl solid is placed in water, o ...
Electricity and Magnetism Test
... 1. If two charges repel each other, the two charges must be… 2. A device that can convert chemical energy to electrical energy is a… 3. An object becomes charged when the atoms in the object gain or lose… 4. What type of current comes from the outlets in your home? 5. Which of the following is NOT a ...
... 1. If two charges repel each other, the two charges must be… 2. A device that can convert chemical energy to electrical energy is a… 3. An object becomes charged when the atoms in the object gain or lose… 4. What type of current comes from the outlets in your home? 5. Which of the following is NOT a ...
Nanofluidic circuitry
Nanofluidic circuitry is a nanotechnology aiming for control of fluids in nanometer scale. Due to the effect of an electrical double layer within the fluid channel, the behavior of nanofluid is observed to be significantly different compared with its microfluidic counterparts. Its typical characteristic dimensions fall within the range of 1–100 nm. At least one dimension of the structure is in nanoscopic scale. Phenomena of fluids in nano-scale structure are discovered to be of different properties in electrochemistry and fluid dynamics.