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When measuring for curtains, the amount of material you need depends on the dimension of the window. A good rule of thumb when measuring the width is to double the measurements, to allow for gathering in the material.
Double the amount of solvent.
Yes, but irrigation would be required and that means lots of water. A person would have to double the amount of precipitation at least.
Not directly. A String is an object, and a double is a primitive data type. To do the conversion you must first convert the String to a Double object (note the capital D in double), then convert that object to a double data type (lowercase d in double). Double is an object, double is a primitive data type. Here's a class that will convert a String to a double:public class StringToDouble{public static void main (String[] arguments) {String s = "100.00";double d = Double.valueOf(s.trim()).doubleValue();System.out.println("double d = " + d);}}
double bond is stronger because it consists of one sigma and one pi bond so high amount of heat is require to separate two atoms having a double bond.
take it to the custom radio installer, as it will require a small amount of cutting and trim removal from around the bezel! Had it done!
Double it.
No, but a typecast can: int n; double d; d= (double)n;
its more math than it is cooking say if you want to add double the anount double all the ingredients ..... if you want to add and extra half multiply the ingredients by 0.5 (use a calculator and round unseperatable object up)
To double the pressure, you will need double the temperature. Note that you have to use the absolute temperature (usually Kelvin) for this calculation. So, for example, if you start off at 100 degrees Celsius, you convert that to Kelvin (add 273 to convert from Celsius to Kelvin), double the number to get double the temperature, then convert back to Celsius (subtract 273 from the previous result).Similarly, if you start out at a certain number of degrees Fahrenheit, you must first convert that to Kelvin, then double the result, and finally convert this last result back to Fahrenheit.
California
Einstein gave us E=mc2, and this equation is what is called the mass-energy equivalence. What the equation says is that there is a direct relationship between matter (something with mass, m) and energy (e). If a specific amount of mass is converted into energy, there will be a specific amount of energy created. If a specific amount of energy is converted into mass, there will be a specific amount of mass created. But how much? Let's look.If a specific amount of mass creates a specific amount of energy when converted and we double the amount of mass, we'll get double the amount of energy when it's converted. If a specific amount of energy is converted into mass and we double the amount of energy, we'll get double the amount of mass when we convert it. One more thing.The conversion factor when changing mass to energy or energy to mass is the square of the speed of light (c2). If one kilogram of mass is converted into energy, the equation will look like this:E = mc2 = 1 x (3 x 108)2 = 9 x 1016 Joules of energy.That's a lot of energy. Over 4 million average homes could run for a year on that energy. There is a huge amount of energy in matter if we convert it all to energy. Use the link to learn more.