Q: Tear gas is actually a dust that is sprayed into the air,  whereas biological weapons are generally gases. While it is incredibly difficult and expensive to completely protect yourself against gases, you can easily create a barrier against particles at home. Toxic ash from volcanoes, tear gas, and dust are all particle contaminates. Using a razor blade, cut the bottom inch off of a large bottle and discard the bottom. Use a marker to draw a “U” across the front of the bottle, cap side down. This needs to fit snuggly across your face, stopping roughly at your temple and below your chin. Make sure you leave 5-6 inches between the bottom of your cup and your chin. Cut along your outline with your razor blade.  Start smaller than you think you need – you can always cut more away later. The bottle should fit snuggly across your face, as this prevent gas from getting into your eyes. Glue 1 inch of rubber form insulation around the edges of your gas mask to create a seal. This will keep contaminated air away from your eyes and nose. Take your time with this step, trying on your mask multiple times to make sure it sits snugly across your face.  You can purchase rubber foam online or at large hardware stores. If you can’t get your hands on rubber foam, use several layers of tape around the edges, or strips of fabric from an old t-shirt. Cut them near the bottom, as you will need them later to attach the mask to your face. Attach the elastic bands near eye level so you can securely keep the mask on your face without your hands. This is your filtration device.  Place the hospital mask, preferably an N95 particulate mask (available online or at a nearby health supply store), at the bottom of your gas mask. Seal the edge of the mask to the bottle with glue to prevent air from bypassing the mask. Attach it to your face, making sure there are no holes in the insulation that would allow contaminated air to your face. Make sure the bottle cap is off, and breath in the clean air.
A: Know the difference between gas and particle contamination. Cut the bottom off of a transparent 2-liter soda bottle. Cut a U-shaped opening for your head. Create a protective seal around your face with rubber foam. Remove the elastic bands from your hospital mask. Staple the elastic bands to your mask. Push the hospital mask into the bottom to the bottle. Wear your new gas mask.

Article: This list of genes will affect the DNA points you get during your game. For Neurax Worm Brutal, choose Catalytic Switch. This genetic code will give you more DNA points popping blue bubbles or is also known as cure.  During the game, researchers will frantically look for a way to cure the virus you unleashed, sending groups of people to other countries to uncover the secret in order to eradicate the worm. Whenever there are researchers, blue bottles will appear. Catalytic Switch is very effective during the middle and later part of the game. For this genetic code, choose Aquacyte. This gene will increases the chance of the plague to spread by sea.  Most of the countries have ports, especially countries that are difficult to infect such as Greenland and Iceland. With this gene, infection spreads through water; this includes ships and will be more effective than normal. This will give you the choice of changing the value per evolving and devolving your Neurax Worm. For Brutal Mode, choose Ionized Helix. This will give you bonus DNA when devolving It’s fine if you insert other genes here as long as it does not affect the cure progress rate. These genes will let you change how your plague mutates. It can either increase the chance of mutation or decreases it. In this mode, use Darwinist.  This increases the chance of your plague mutating and will be helpful since you will be focusing on spreading the worm later on. You can also use Genetic Mimic; this gene makes your plague harder to cure. The chance of mutating doesn't require DNA points. This is where you can find the set of genes that can influence the behavior of your Neurax Worm in different environment. In this mode, Extremophile is much preferable since it gives your worm a minor bonus in all environment.
Question: What is a summary of what this article is about?
Modify the DNA genes. Modify the Travel genes. Modify the Evolution gene. Modify the Mutation gene. Modify the Environment genes.

Problem: Article: Take a test light and connect the negative lead to the body of the vehicle.  Press the test light into each of the four circuits on the GM idle control motor.  Each circuit should make the test light flash or go from bright to dim while the engine is running.  If the test light doesn’t flash on each circuit, the issue is coming from the ECU, not the idle control motor. If the test light flashes properly, it means the idle control motor needs to be replaced. Locate the idle control motor in your Ford vehicle and identify the two electrical pins on the solenoid.  Connect an Ohm meter to the two and measure the resistance between them.  Fords are designed to operate with the resistance in the solenoid in a range between 7.0 to 13.0 ohms. If the resistance is outside that range, the idle control motor needs to be replaced. Connect a bidirectional scan tool to the same OBD port you would plug a code scanner into.  Use the command in the scan tool to increase the engine’s idle.  If the engine idle does not increase, it means there is an issue at the idle control motor of its circuit preventing the signal from changing the idle.  You can purchase a bidirectional scan tool at your local auto parts store. Make sure the wiring harness is firmly connected to the idle control motor before conducting this test.
Summary: Use a test light to check the wiring on a GM idle control motor. Measure the resistance of the solenoid in a Ford. Use a bidirectional scan tool to increase idle speed in a Chrysler.

Q: This will ensure that you arrange the leaves in a thoughtful way rather than quickly rushing to push them on. Look at at the leaves you have and imagine how they'll look and try to line them up in readiness for pressing on the candle.  Hold it in place from the wick for 1 to 2 minutes. Ensure that it is all submerged. Place the leaves onto the softened candle surface, using tweezers. Press in place gently. Work quickly, once the wax solidifies, the leaves are stuck in place and no more can be added. The leaves will be sealed behind a new layer of melted wax. Further dipping in the hot water will shift the pressed leaves further into the candle. Bear this in mind if adding more layers of leaves, as some will be deeper in, some closer to the outside if you approach this in several goes. Aim for an even distribution. Let set. These candles will keep for a very long time, but you may need to infuse more essential oil after long-term storage.
A:
Consider designing the leaf pattern first. Fill the long jar with boiling water. Dip the candle into the water. Remove from the jar and place on parchment paper. Dip the candle into the hot water again. Drip a few drops of essential oil down the sides of the candle before it solidifies. Repeat with as many candles as you'd like to make.