o 7 Press the clips securing the system RAM to the motherboard out of the notches on the edges of the RAM and pull the RAM from the memory banks. o 8 Release the CPU from the motherboard by unclipping the CPU fan from the CPU and then pull the CPU lever upward. Carefully remove the CPU without touching the top or bottom of the chip. o 9 Remove all other installed motherboard components. Place all removed components into antistatic bags for safekeeping.
Burst the cellular membrane and the nuclei What is the name of the process used to amplify DNA? Polymarse Chain Reaction How is the amplified DNA sorted? By size What # did the DNA profile match? #3 Why was Greg’s DNA profile in CODIS? Because all forensic scientists are required to have their DNA in CODIS Toxicology Lab: Where is vitreous humor normally located?
If you want to reach higher speeds install the 23 tooth pinion gear that comes with the truck in the box. Both Monster trucks are equipped with the same frame, tires, shocks, body, remote, pinion gears and electronics. The Monster Truck bodies are the same style with the only difference of a circular hole in the bed of the truck for the top of the Nitro motor. The reason for this is the needed air requirements for the Nitro motor or it would not run. To run The Electric Stampede they will have to charge the battery then connect the power turn on the receiver and speed controller and drive.
Protective action zone 15. First responders must know who to notify in the event of a Hazardous Materials/Weapons of Mass Destruction (HazMat/WMD) incident. For local community notification, all EXCEPT the following are appropriate ways of making notification, depending on location? (1 point) D. EMS 16. The blue area of the National Fire Protection Association (NFPA) 704 diamond identifies hazards related to: (1 point) A.
From there, Kwol went to Tennessee where they had a few nuclear power plants that provided there city with energy, and having those nuclear power disaster is big risk because of the mess it causes just like in Chernobyl, which killed and damaged a lot of land in Ukraine. Then Kwol went to Boston and found where the oil gets imported from, which are Yemen, Saudi Arabia, and etc., and how safely it is guarded. After that experience, Kwol went on a journey with a professor, who works at Penn state, to New York to discover up to New York to find a natural gas which is contained in a rock called shale and it is theory that it could supply America for 20 years of energy. The last three different energy sources that he discovered was wind power which mainly comes from the Great
Conduit - A rigid or flexible metallic or nonmetallic raceway of circular cross section in which cables are housed for protection and to prevent burning cable from spreading flames or smoke in the event of a fire. Racks - A frame-like structure where patch panels, switches, and other network equipment are installed. The typical dimension is 19 inches. Punch-down blocks - A generic name for any cross-connect block where the individual wires in UTP are placed into a terminal groove and “punched down” with a special tool. The groove pierces the insulation and makes contact with the inner conductor.
pyridinium hydrobromide perbromide type of stationary phase column length column temperature rate flow of the carrier gas List the 4 general factors that affect the separation obtained on a gas chromatograph What specific technique is used to collect/isolate your purified unknown compound at the end of the recrystallization experiment? suction filtration 14 of 22 4/16/12 9:15 PM StudyBlue Flashcard Printing of Lab Final 2211L UGA
Materials: In order for us to do this lab we need a few things. we got out a magnet, tongs, water, flask, funnel, Bunsen burner, evaporating dish, four 50mL beakers, filter paper, hot pads, and a spatula. 3. Procedure: 1) Got four 50mL beakers from her assigned drawer 2) Got a magnet that had a handle 3) Put the magnet in the plastic baggy that held all of the minerals 4) Picked out all of the iron fillings with the magnet, and placed them in one of the 50mL beakers 5) Got out tongs 6) Took out all of the aluminum balls and placed them in a different 50mL beaker 7) Got out a flask and a funnel 8) Got a piece of filter paper and placed it into the funnel 8) Placed the funnel into the flask and then connected a hose to the flask and the faucet 9) Put water into the bag of sand and salt then poured it into the filter 10) Turned the faucet on and it started to drain while the salt was dissolving into it 11) Once it was done she scrapped the sand into the third 50mL 12) Got out a Bunsen burner and attached an evaporating dish above it on an iron ring 13) Poured the water into the evaporating dish 14) Waited until the water evaporated and only salt was left in the dish 15) Poured the salt out into the final 50mL beaker 16) Weighed all of them and found the mass.
Once the DNA samples were loaded, the apparatus was covered and snapped into place. The black wire was inserted into the black input of the power source. The red wire was inserted into the red input of the power source. The power source was set to run the gel at 150V and 150 mA for 40 minutes. After the electrophoresis was completed, the power was turned off, the power source was unplugged, and the leads were disconnected so that the cover could be
Experiment 3: Copper Cycle Purpose Statement In the experiment 3, I need to synthesis a number of copper compounds and need to recover copper metal. Before I can synthesis a number of copper compounds and recover copper metal, I need to collect all the observation, physical properties and solutions through the copper cycle, after that I can synthesis a number of copper compound. When I can synthesis a number of compound I can recover copper metal by weighting an empty weighing bottle and solutions from above experiment (copper that I collect from the copper (I) compound experiment and copper cycle). Data Table Table 3.1: Reagents used in the copper cycle and in the preparation of copper (I) solids Reagent | Appearance | Volume (mL) or Mass (g) | Concentration (M) | Cu(NO3)2 | Light blue, transparent | 10.0 mL | 0.10 | NaOH | Clear (colourless), transparent | 20.0 mL | 2.00 | HCl | Clear (colourless), transparent | 40 drops ~ 1.3 mL | 6.00 | NH3 | Clear (colourless), transparent | 50 drops ~ 1.7 mL | 6.00 | H2SO4 | Clear (colourless), transparent | 15.0 mL | 1.50 | Zinc dust | Silver, solid, very thin layer, shiny | 0.14 g | N/A | Ethanol | Clear (colourless), transparent, odour (alcohol) | 5.0 mL | N/A | CuCl2 • 2H2O | Green,