The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.
The diagonal distance of the suitcase is: square root (902 + 652 + 302) = square root (8100 + 4225 + 900) = square root (13225) = 115 cm So, it would not fit.
You can simplify the term by approximation! Here is the approach: Let y = √x = x^(½). Then, dy/dx = ½ * x^(-½) = 1/(2√x) Select 115² to be x. Then, we obtain: y = 115 dy/dx = 1/(2 * 115) = 1 / 230 Therefore, we obtain this equation: y - 115 = 1/230 * (x - 115²) If x = 13144, then we have: y - 115 = 1/230 * (13144 - 115²) y = 1/230 * (13144 - 115²) + 115 ≈ 114.65 OR What you can do is to factor out each term by term and extract the perfect square factor out of the √. For instance: √(13144) = √(4 * 3286) = 2√3286
130
The differences between the two adjacent numbers in the question is equal to the absolute value of the next square number. So, since the last difference is equal to 115 - 79 = 36, the next difference between the two will be 72 = 49. Adding 49 to 79 gives 128.
The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.The positive square root of 115 lies between the positive square roots of 114 and 116.
the square root of 115 is 10.7238053
Square root (115) = 10.7238053
The diagonal distance of the suitcase is: square root (902 + 652 + 302) = square root (8100 + 4225 + 900) = square root (13225) = 115 cm So, it would not fit.
My Windows Calculator says 132.25. What does yours say?
The perimeter of a square with side 115 = 115 X 4 = 460.
You can simplify the term by approximation! Here is the approach: Let y = √x = x^(½). Then, dy/dx = ½ * x^(-½) = 1/(2√x) Select 115² to be x. Then, we obtain: y = 115 dy/dx = 1/(2 * 115) = 1 / 230 Therefore, we obtain this equation: y - 115 = 1/230 * (x - 115²) If x = 13144, then we have: y - 115 = 1/230 * (13144 - 115²) y = 1/230 * (13144 - 115²) + 115 ≈ 114.65 OR What you can do is to factor out each term by term and extract the perfect square factor out of the √. For instance: √(13144) = √(4 * 3286) = 2√3286
The Maldives islands cover an area of about 115 square miles.
Multiply the two dimensions to get the area. The calculation will give you 115 square meters.
meters are units of length and square feet are units of area so the question can not be answered
154 feet x 115 feet gives an area of 17,710 square feet.
Answer 1: effective voltage is 0.707 * 115 = 81.3 voltage Answer 2 by xfrmrman: 115 VAC refers to rms voltage or effective voltage. VAC, rms and "effective" are all synonymous terms in this case. When you plug your appliance into 115 VAC, it is 115Vrms. The peak voltage, if the waveform is sinusoidal, will be 1.414 x the 115Vrms or the 115/.707 or ~163 volts. Note that the rms to peak factor is the square root of 2 and .707 is 1/square root of 2. This value was calculated for a sinusoid by manipulating udv - (integral of vu') (known as integration by parts) to find the root-mean squared value for heating. An RMS voltage measured across a resistive component can be translated into the rms (heating) current. The "3" in the expression above most likely indicates three-phase sinusoidal voltages (call them A,B, & C) which are represented as voltage vectors phased 120 degrees apart (draw arrows 120 apart originating at the center of a 360 degree circle. Connect the ends to make 3 triangles that when evenly subdivided will create two 60-30-90 (or 1,2 square root of 3 side length triangles) between phases. Each ray out will be the hypotenuse "2" side of the triangle, two "square root of three" length segments will be phase to phase. Divide everything by 2 to normalize the hypotenuse. This means line to line voltage is square root of three x line to neutral voltage. In the three phase case you can have the 115 VAC as your rms voltage and the same peak 163V measured from A to B, B to C, or C to A). However.... Usually the 115 Vrms or 120 Vrms is a broken out 3 phase line to neutral voltage from wye connected windings. The line to line voltage is 115 x square root of 3 or 200 V. For 120 volts, 120 x square root of 3 = 208V. Hence, we see a lot of 208 volt power in industry. Windings can also be connected start to finish for "Delta," but that's another topic.