1959 AHSME Problems
1959 AHSC (Answer Key) Printable version: | AoPS Resources • PDF | ||
Instructions
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Contents
[hide]- 1 Problem 1
- 2 Problem 2
- 3 Problem 3
- 4 Problem 4
- 5 Problem 5
- 6 Problem 6
- 7 Problem 7
- 8 Problem 8
- 9 Problem 9
- 10 Problem 10
- 11 Problem 11
- 12 Problem 12
- 13 Problem 13
- 14 Problem 14
- 15 Problem 15
- 16 Problem 16
- 17 Problem 17
- 18 Problem 18
- 19 Problem 19
- 20 Problem 20
- 21 Problem 21
- 22 Problem 22
- 23 Problem 23
- 24 Problem 24
- 25 Problem 25
- 26 Problem 26
- 27 Problem 27
- 28 Problem 28
- 29 Problem 29
- 30 Problem 30
- 31 Problem 31
- 32 Problem 32
- 33 Problem 33
- 34 Problem 34
- 35 Problem 35
- 36 Problem 36
- 37 Problem 37
- 38 Problem 38
- 39 Problem 39
- 40 Problem 40
- 41 Problem 41
- 42 Problem 42
- 43 Problem 43
- 44 Problem 44
- 45 Problem 45
- 46 Problem 46
- 47 Problem 47
- 48 Problem 48
- 49 Problem 49
- 50 Problem 50
- 51 See also
Problem 1
Each edge of a cube is increased by %. The percent of increase of the surface area of the cube is:
Problem 2
Through a point inside the a line is drawn parallel to the base , dividing the triangle into two equal areas. If the altitude to has a length of , then the distance from to is:
Problem 3
If the diagonals of a quadrilateral are perpendicular to each other, the figure would always be included under the general classification:
Problem 4
If is divided into three parts which are proportional to the middle part is:
Problem 5
The value of is:
Problem 6
Given the true statement: If a quadrilateral is a square, then it is a rectangle. It follows that, of the converse and the inverse of this true statement is:
Problem 7
The sides of a right triangle are , , and , with and both positive. The ratio of to is:
Problem 8
The value of can never be less than:
Problem 9
A farmer divides his herd of cows among his four sons so that one son gets one-half the herd, a second son, one-fourth, a third son, one-fifth, and the fourth son, cows. Then is:
Problem 10
In with , a point is taken on at a distance from . Point is joined to in the prolongation of so that is equal in area to . Then is:
Problem 11
The logarithm of to the base is:
Problem 12
By adding the same constant to a geometric progression results. The common ratio is:
Problem 13
The arithmetic mean (average) of a set of numbers is . If two numbers, namely, and , are discarded, the mean of the remaining set of numbers is:
Problem 14
Given the set whose elements are zero and the even integers, positive and negative. Of the five operations applied to any pair of elements: (1) addition (2) subtraction (3) multiplication (4) division (5) finding the arithmetic mean (average), those elements that only yield elements of are:
Problem 15
In a right triangle the square of the hypotenuse is equal to twice the product of the legs. One of the acute angles of the triangle is:
Problem 16
The expression when simplified is:
Problem 17
If , where and are constants, and if when , and when , then equals:
Problem 18
The arithmetic mean (average) of the first positive integers is:
Problem 19
With the use of three different weights, namely lb., lb., and lb., how many objects of different weights can be weighed, if the objects is to be weighed and the given weights may be placed in either pan of the scale?
Problem 20
It is given that varies directly as and inversely as the square of , and that when and . Then, when and , equals:
Problem 21
If is the perimeter of an equilateral inscribed in a circle, the area of the circle is:
Problem 22
The line joining the midpoints of the diagonals of a trapezoid has length . If the longer base is then the shorter base is:
Problem 23
The set of solutions of the equation consists of
Problem 24
A chemist has m ounces of salt water that is % salt. How many ounces of salt must he add to make a solution that is % salt?
Problem 25
The symbol means if is greater than or equal to zero, and if a is less than or equal to zero; the symbol means "less than"; the symbol means "greater than." The set of values satisfying the inequality consists of all such that:
Problem 26
The base of an isosceles triangle is . The medians to the legs intersect each other at right angles. The area of the triangle is:
Problem 27
Which one of the following is not true for the equation , where
Problem 28
In triangle , bisects angle , and bisects angle . Points and are on and , respectively. The sides of are , , and . Then where is:
Problem 29
On a examination of questions a student answers correctly of the first . Of the remaining questions he answers one third correctly. All the questions have the same credit. If the student's mark is 50%, how many different values of can there be?
Problem 30
can run around a circular track in seconds. , running in the opposite direction, meets every seconds. What is 's time to run around the track, expressed in seconds?
Problem 31
A square, with an area of , is inscribed in a semicircle. The area of a square that could be inscribed in the entire circle with the same radius, is:
Problem 32
The length of a tangent, drawn from a point to a circle, is of the radius . The (shortest) distance from A to the circle is:
Problem 33
A harmonic progression is a sequence of numbers such that their reciprocals are in arithmetic progression. Let represent the sum of the first terms of the harmonic progression; for example represents the sum of the first three terms. If the first three terms of a harmonic progression are , then:
Problem 34
Let the roots of be and . Then the expression is:
Problem 35
The symbol means "greater than or equal to"; the symbol means "less than or equal to". In the equation is a fixed positive number, and is a fixed negative number. The set of values x satisfying the equation is:
Problem 36
The base of a triangle is , and one side of the base angle is . The sum of the lengths of the other two sides is . The shortest side is:
Problem 37
When simplified the product becomes:
Problem 38
If , then :
Problem 39
Let S be the sum of the first nine terms of the sequence Then S equals:
Problem 40
In , is a median. intersects at so that . Point is on . Then, if , equals:
Problem 41
On the same side of a straight line three circles are drawn as follows: a circle with a radius of inches is tangent to the line, the other two circles are equal, and each is tangent to the line and to the other two circles. The radius of the equal circles is:
Problem 42
Given three positive integers and . Their greatest common divisor is ; their least common multiple is . Then, which two of the following statements are true?
Problem 43
The sides of a triangle are , and . The diameter of the circumscribed circle is:
Problem 44
The roots of are both real and greater than . Let . Then :
Problem 45
If , then equals:
Problem 46
A student on vacation for days observed that (1) it rained times, morning or afternoon (2) when it rained in the afternoon, it was clear in the morning (3) there were five clear afternoons (4) there were six clear mornings. Then equals:
Problem 47
Assume that the following three statements are true: (I). All freshmen are human. (II). All students are human. (III). Some students think.
Given the following four statements:
Those which are logical consequences of I, II, and III are:
Problem 48
Given the polynomial , where is a positive integer or zero, and is a positive integer. The remaining 's are integers or zero. Set . [See example 25 for the meaning of .] The number of polynomials with is:
Problem 49
For the infinite series let be the (limiting) sum. Then equals:
Problem 50
A club with members is organized into four committees in accordance with these two rules:
Then :
See also
1959 AHSC (Problems • Answer Key • Resources) | ||
Preceded by 1958 AHSC |
Followed by 1960 AHSC | |
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The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.