...then bring down the second tem for a dividend. 3. Involve the root last found to the next inferior power, and multiply it by the index of the given power...dividend by the divisor, and the quotient will be the Tiext term of the root. 5. Involve the whole root thus found to the required power, which subtract...

...last found to the next inferior power, and multiply it by the index of the given power for a dioisar. 4. Divide the dividend by^ the divisor, and the quotient...the next term of the root. 5. Involve the whole root thus found to the required power, which subtract from the given quantity, and divide the first term...

...then Iring down the seccmd term for a dieidejid. 3. Involve the root last found to the next inferior power, and multiply it by the index of the given power...will be the next term of the root. 5. Involve the wJiole root thus found to the reyuircd pmver, which subtract from the given quantity, and divide tfte...

...3. Involve the root last found to the next inferior power, and multiply it by the index of the giaen power for a divisor. 4. Divide the dividend by the divisor, and the quotient will be che next term of the root. 5. Involve the whole root thus found to the required power, which subtract...

...radii by the same distance F c, and to this product add twice the product of the radii, for a divisor. Divide the dividend by the divisor, and the quotient will be the focal distance, c/, required. If the lens is equally convex, multiply the distance F c by the radius...

...the same distance, F c, and from this product subtract twice the product of the radii, for a divisor. Divide the dividend by the divisor, and the quotient will be the focal distance, c/, required. Rule if the Lens is equally Convex. — Multiply the distance of the...

...a DIVISOR. II. Multiply the given sum by the representative of the rate of interest for a DIVIDEND. Divide the dividend by the divisor, and the quotient will be the FACE of the note. EXAMPLES. 2. Required the face of a note payable in 5mo. 15da., so that, discounted...

...given polynomial. Divide the first term of the remainder by twice the root already found, as a trial divisor, and the quotient will be the next term of the root. Write this result in the root, and annex it to the trial divisor, to form a complete divisor. Multiply...

...the first term of the remainder by three times the square of the first term of the root as a trial divisor, and the quotient will be the next term of the root. III. Complete the divisor by adding to it three times the product of the first term by the second,...

...given polynomial. Divide the first term of the remainder by twice the root already found, as a trial divisor, and the quotient will be the next term of the root. Write this result in the root, and annex it to the trial divisor to form a complete divisor. Multiply...