Article: It will take anywhere from 24 to 28 hours for your skin to heal after sugaring. It's very common for red spots to form on sugared areas. These spots form where the hair root was removed, and may look somewhat similar to a sun burn. Do not worry about such spots as they'll clear up in a few days. In the event you get an ingrown hair, treat it promptly. Ingrown hairs can cause serious skin irritation if left untreated. You can use topical gels designed to treat ingrown hairs at a local supermarket. If ingrown hairs do not clear up on their own, see a dermatologist. Doing sea salt soaks regularly following a sugaring appointment can prevent the formation of ingrown hairs. If you notice redness, itching, burning, or other symptoms that do not go away within 24 or 48 hours, see a dermatologist. Sugaring is usually safe, but can make your skin more susceptible to infections. If you have a rash that you suspect may be infected, make an appointment with a dermatologist.
Question: What is a summary of what this article is about?
Do not worry about red spots. Treat ingrown hairs. See a dermatologist in the event of an infection.

Problem: Article: For the most accurate measurement, test the resistance of a component individually. Remove the component from the circuit or test it before you install it. Testing the component while still in the circuit can cause inaccurate readings from other components.  For example, you might test the switch or motor. If you are testing a circuit or even just removing a component, be sure that all power to the circuit is turned off before proceeding. On most multimeters, one test lead will be black and the other will be red. A multimeter often has multiple testing sockets, according to whether it is being used to test for resistance, voltage, or amperage (current). Usually the right sockets to test for resistance are labeled "COM" (for common) and one labeled with the Greek letter omega, which is the symbol for "ohm." Plug the black lead into the socket labeled "COM" and the red lead into the socket labeled "ohm". The resistance of a component can range from ohms (1 ohm) to megaohms (1,000,000 ohms). In order to get an accurate reading of resistance you must set the multimeter to the proper range for your component. If you have a general idea of the range of resistance just set it to that range. If you’re unsure, you can determine the range through trial and error.  If you don’t know the range, start with the middle range setting, usually 20 kilo-ohms (kΩ). Touch one lead to the end of your component and the other lead to the opposite end. The needle will swing across the screen and stop in a specific spot, indicating the resistance of your component. If the needle swings all the way to the top of the range (the left side), you will need to increase the range setting, zero out the multimeter, and try again. If the needle swings all the way to the bottom of the range (the right side), you will need to decrease the range setting, zero out the multimeter, and try again. Analog multimeters must be reset or zeroed out every time the range setting is altered and before testing the component. Touch the ends of both leads together to short the circuit. Ensure the needle is set all the way to zero using the Ohms Adjustment or Zero Control after the leads have been touched to each other. Just as you did when you were setting the range, touch one lead to one end of the component and the other lead to the opposite end. The resistance range on a multimeter goes from right to left. The right side is zero and the left side goes up to around 2k (2,000). There are multiple scales on an analog multimeter so be sure to look at the scaled labeled with an Ω that goes from right to left. As the scale goes up, the higher values are clustered closer together. Setting the correct range is crucial to being able to get an accurate reading for your component. Once you have touched the leads to the component, the needle will settle somewhere in between the top and bottom of the scale. Check to make sure you are looking at the ohm scale and record the value where the needle is pointing to. This is the resistance of your component. For example if you had set the range to 10 Ω and the needle stopped at 9, the resistance of your component is 9 ohms. When you are finished using the multimeter, you want to make sure it is properly stored. Setting the voltage to a high range before turning it off ensures that it won’t be damaged the next time it is used if someone doesn’t remember to set the range first. Turn off the multimeter and unplug the leads for storage.
Summary: Choose the item whose resistance you wish to measure. Plug the test leads into the correct test sockets. Turn on the multimeter and select the best testing range. Touch the multimeter leads to the ends of the component you are testing. Read the resistance. Set the voltage to a high range.

INPUT ARTICLE: Article: This is easy to make and can be put in the corner of the room that has a wasp problem. For this trap, you will need:  Scissors Empty plastic bottle (2L) Tape Bait (watered down dish soap) Be sure to do this carefully with your scissors. You can also use a razor blade if the scissors don't seem to be cutting through the bottle. If you want to add vinegar, it will still attract the wasps but won't attract bees. This is going to form your at-home trap. The wasps will be attracted to the bait, fly through the neck of the bottle, and get stuck in the bottom where they will die. If you wish to hang it, heat two ends of a wire and stick them into either side of the bottle and hang it once the wire is secure. If too many wasps die, they can make a sort of raft for other wasps to live on in the bottom of the trap.

SUMMARY: Gather your materials. Remove the bottle cap and cut through the bottle a third of the way down. Place your bait in the bottom of the bottle. Invert the top third of the bottle and slide in into the base. Tape the two pieces of the bottle together and place it anywhere in the room. Be sure to empty your trap consistently.

Always unplug the vacuum before performing any maintenance. Look at the entire cord for breaks in the plastic, exposed wire, or fraying. If you see any of these, don't use the vacuum because you could get shocked. If the cord is damaged, take the vacuum to a vacuum repair shop. They can inexpensively repair or replace the cord. If your vacuum is covered in dust or dirt, you'll spread it around your home as you vacuum and the dust could clog the machine's filters. Rub a damp cloth over the entire surface of the vacuum to remove built-up dirt. Ensure that you clean where pieces attach or connect. Removing dust and dirt from these areas can make a tighter seal so the vacuum works more efficiently. Take all of the attachments off of the vacuum and check them for cracks. Most vacuums come with a narrow extension wand, a dusting brush, a flat upholstery tool, and a power or turbo brush. Wipe dirt or dust from these attachments and pull away hair that might be tangled or stuck in them. For example, if hairs are caught in the turbo brush blade, take a pair of scissors and cut the hairs free from the bristles. Pull out the long stretchy hose and wipe the length of it with a damp cloth. Then, stretch it until it's straight and hold it down to the ground. Get down and look into it to see if the hose is clogged. If it is, take a bent wire or metal hanger and carefully insert it into the hose. Pull on the clog to loosen and remove it.  If the hose is clogged, you might notice a loss of suction when you vacuum. Use caution when you insert the wire into the hose since you don't want to accidentally puncture the hose.
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One-sentence summary --
Unplug the cord and inspect it for fraying or breaks. Use a damp cloth to wipe dust off the outside of the vacuum. Inspect all of the attachments and remove dirt or hair from them. Wipe down the hose and remove any dirt clogs.