Stories about Mathematics-land, Volum 2J.M. Dent and Sons, 1927 |
Inni boken
Resultat 1-4 av 4
Side 101
... first term of your Divisor into the first term of your Dividend to start your Quotient . The rest is the same as in Arithmetic , only you can bring down as many terms as you need , each time . Note this problem a + b a + b ) 101.
... first term of your Divisor into the first term of your Dividend to start your Quotient . The rest is the same as in Arithmetic , only you can bring down as many terms as you need , each time . Note this problem a + b a + b ) 101.
Side 107
... Product ) . A Formula for Simple Division might be written like this : DQd + R ( in which D = Dividend , Q Quotient and d = Divisor , and R = Remainder ) . = See if you can make up a Formula for Simple SUBSTITUTIONS AND FORMULÆ 107.
... Product ) . A Formula for Simple Division might be written like this : DQd + R ( in which D = Dividend , Q Quotient and d = Divisor , and R = Remainder ) . = See if you can make up a Formula for Simple SUBSTITUTIONS AND FORMULÆ 107.
Side 151
... quotient . 3. Bring down a term to form part of your new dividend . 4. Multiply your quotient by 2 , and place it as part of a new divisor . Find the next part of the quotient by putting this divisor into the new dividend . This term ...
... quotient . 3. Bring down a term to form part of your new dividend . 4. Multiply your quotient by 2 , and place it as part of a new divisor . Find the next part of the quotient by putting this divisor into the new dividend . This term ...
Side 153
... quotient by putting this divisor into the new dividend . 5. Now take three times the product of the first and second terms of your whole quotient ( as it now stands ) . This will form the next term of your divisor . 6. Now take the ...
... quotient by putting this divisor into the new dividend . 5. Now take three times the product of the first and second terms of your whole quotient ( as it now stands ) . This will form the next term of your divisor . 6. Now take the ...
Vanlige uttrykk og setninger
180 degrees 2a²b³ 2ab+b² 90 degrees 9ab³ Adjacent Angles Algebra Angle contains angles are equal angles equal answer Arithmetic arranged Billy brackets centre Coefficients Construction contain 360 degrees course cube root describe a circle describe an arc describe an equilateral describe an Isosceles Divide divisions divisor Draw a line draw a straight draw regular figures Equilateral Triangle Euclid Extract the square Find the sum Find the value Geometry given straight line graph inches long Isosceles Triangle letters line at right Measure negative number of degrees parallel pence Problem Book Prop Proposition protractor prove Quadri Quadrilateral quotient radius Rhombus right angles rolling-pin Scalene set-square shillings sides and angles sides equal Simple Equations Simultaneous Equations Solve square root Subtraction Take any point thing Tommy Trapezium unknown terms Unlike Signs vertically opposite angles Waterloo station
Populære avsnitt
Side 73 - A circle is a plane figure contained by one line, which is called the circumference, and is such that all straight lines drawn from a certain point within the figure to the circumference, are equal to one another.
Side 73 - When a straight line standing on another straight line makes the adjacent angles equal to one another, each of the angles is called a right angle ; and the straight line which stands on the other is called a perpendicular to it.
Side 49 - To draw a straight line at right angles to a given straight line, from a given point in the same.
Side 72 - A plane rectilineal angle is the inclination of two straight lines to one another, which meet together, but are not in the same straight line.
Side 73 - An ACUTE ANGLE is one which is less than a right angle ; as the angle DEF.
Side 69 - ECF; and they are adjacent angles. But, when the adjacent angles which one straight line makes with another straight line are equal to one another, each of them is called a right IT angle ; therefore each of the angles DCF, ECF, is a right angle.
Side 52 - To draw a straight line perpendicular to a given straight line of unlimited length from a given point without it.
Side 44 - Let BAC be the given rectilineal angle, it is required to bisect it. Take any point D in AB, and from AC cut (i.
Side 72 - DEF. 2. A line has position, and it has length, but neither breadth nor thickness. The extremities of a line are points, and the intersection of two lines is a point. DEF. 3. A surface has position, and it has length and breadth, but not thickness. The boundaries of a surface, and the intersection of two surfaces, are lines. DEF. 4. A solid has position, and it has length, breadth and thickness. The boundaries of a solid are surfaces. DEF. 5. A straight line is...
Side 74 - EFGH is a square. The area of a square is found by multiplying the length of one side by itself ; in other words, Area of a square = square of one side. Find the area, in square yards and smaller units, of a square, the length of whose side is : 49. 97 yds. 52. 372 ft. 55. 98 ft. 6 in. 50. 388...