Write an article based on this "Position the first garden hose. Attach the shut-off valve. Attach a second hose. Fill the siphon hose. Open the shut-off valve."
article: Put the end of your hose in the bottom of a higher container that the water will move out from. If you choose to anchor the hose down with an object to keep it from moving, just make sure that it doesn’t block the water flow. Then, place the opposite end of the same hose into a container that is the destination for the siphoned water. This is a great method to use if you need to siphon water over a longer distance or if you need to move a large amount of water. Screw on the valve to the end of the hose that is at the bottom of the higher container. Make sure that the valve is set on the open position. You can purchase a shut-off valve at your local garden store. Get the unused hose and screw one of its ends into the empty side of the shut-off valve. Then, attach the other end of the second hose into a nearby faucet. Double-check that all of your connections are secure and tight. Turn your faucet until it starts to send water out through both hoses. Watch to see when the first hose is full. Then, turn the shut off valve into the off position. You can then disconnect the second hose from both the faucet and the valve. This will leave you with one hose that is full of water and connected to both containers. As soon as you move the valve into the open position, the water will rush out of the hose and into its final container. You can hold the end of the hold somewhat upright to guide the flow of water if you like.

Write an article based on this "Define the generic formula. Find the projected area A. Calculate wind pressure. Determine the drag coefficient for the object in question. Calculate the wind load. For example, let’s say you want to determine the wind load on an antenna that is 3 feet long with a diameter of 0.5 inches in a gust of 70mph winds."
article: The generic formula for wind load is F = A x P x Cd where F is the force or wind load, A is the projected area of the object, P is the wind pressure, and Cd is the drag coefficient. This equation is useful for estimating the wind load on a specific object, but does not meet building code requirements for planning new construction. This is the area of the two-dimensional face that the wind is hitting. For a full analysis, you will repeat the calculation for each face of the building. For example, if a building has a west face with an area of 20m2, use that value for A to calculate the wind load on the west face.  The formula to calculate area depends on the shape of the face. For a flat wall, use the formula Area = length x height. Approximate the area of a column face with Area = diameter x height. For SI calculations, measure A in square meters (m2). For imperial calculations, measure A in square feet (ft2). The simple formula for wind pressure P in imperial units (pounds per square foot) is P=0.00256V2{\displaystyle P=0.00256V^{2}}, where V is the speed of the wind in miles per hour (mph). To find the pressure in SI units (Newtons per square meter), instead use P=0.613V2{\displaystyle P=0.613V^{2}}, and measure V in meters per second.  This formula is based on the American Society of Civil Engineers code. The 0.00256 coefficient is the result of a calculation based on typical values for air density and gravitational acceleration.  Engineers use a more accurate formula to take into account factor such as the surrounding terrain and type of construction. You can look up one formula in ASCE code 7-05, or use the UBC formula below. If you're not sure what the wind speed is, look up the peak wind speed in your area using the Electronic Industries Association (EIA) standard. For example, most of the U.S. is in Zone A with 86.6 mph wind, but coastal areas might lie in Zone B (100 mph) or Zone C (111.8 mph). Drag is the force that air exerts on the building, affected by the building's shape, the roughness of its surface, and several other factors. Engineers typically measure drag directly using experiments, but for a rough estimate you can look up a typical drag coefficient for the shape you are measuring. For example:  The standard drag coefficient for a long cylinder tube is 1.2 and for a short cylinder is 0.8. These apply to antenna tubes found on many buildings. The standard coefficient for a flat plate such as the face of a building is 2.0 for a long flat plate or 1.4 for a shorter flat plate. The drag coefficient has no units. Using the values determined above, you can now calculate wind load with the equation F = A x P x Cd. Start by estimating the projected area. In this case, A=dw=(3ft)(0.5in)(1ft/12in)=0.125ft2{\displaystyle A=dw=(3ft)(0.5in)(1ft/12in)=0.125ft^{2}}  Calculate the wind pressure: P=0.00256V2=0.00256(702)=12.5psf{\displaystyle P=0.00256V^{2}=0.00256(70^{2})=12.5psf}. For a short cylinder the coefficient of drag is 0.8. Plugging into the equation: F=APCd=(0.125ft2)(12.5psf)(0.8)=1.25lbs.{\displaystyle F=APCd=(0.125ft^{2})(12.5psf)(0.8)=1.25lbs.}  1.25 lbs is the amount of wind load on the antenna.

Write an article based on this "Start a new WordPad document. Add the table tags. Add the first row to your table. Add the table headings to the first row. Add another row beneath the headers. Continue adding rows. Click File and select "Save as." Select "Text" from the "Save as type" menu. Change the extension at the end of the file name to .html. Save the file. Open the file in a web browser."
article:
You can use WordPad to create a table in HTML that can be open and displayed in any web browser. These are the tags that your table code will be enclosed in.  <table> </table> This will be the header row for your table.  <table> <tr> </tr> </table> Use the table heading tags to add as many columns as you would like.  <table> <tr> <th>Column 1</th> <th>Column 2</th> <th>Column 3</th> <th>Column 4</th> </tr> </table> Now that you have your column headings, you can add your first row of data.  <table> <tr> <th>Column 1</th> <th>Column 2</th> <th>Column 3</th> <th>Column 4</th> </tr> <tr> <td>Data 1</td> <td>Data 2</td> <td>Data 3</td> <td>Data 4</td> </tr> </table> You can use the  tags to continue adding rows of data to your table. Make sure that you close each one with a  tag.  <table> <tr> <th>Column 1</th> <th>Column 2</th> <th>Column 3</th> <th>Column 4</th> </tr> <tr> <td>Data 1</td> <td>Data 2</td> <td>Data 3</td> <td>Data 4</td> </tr> <tr> <td>Data 5</td> <td>Data 6</td> <td>Data 7</td> <td>Data 8</td> </tr> </table> This will allow you to save the document as an HTML file. It needs to be in HTML format so that you can see the table when you load it in a web browser. This lets you change the extension. This will change the format to HTML format. You can now name and save the file as whatever you'd like. Make sure that it has the .html extension. Double-click the newly-created HTML file to load it in your default web browser. Your table will appear in the browser window.