Triangles

2010015204

Level:

What is the height of a computer screen if the ratio of its width and height is \( 16:9 \) and the computer has \( 23 \)-inch monitor? Round the result to two decimal places. (\( 1 \) inch=\( 2.54\,\mathrm{cm} \))

\( 28.64\,\mathrm{cm} \)

\(50.92\,\mathrm{cm} \)

\( 20.05\,\mathrm{cm} \)

\(11.28\,\mathrm{cm} \)

2010015210

Level:

Given a right-angled triangle \( ABC \) with the right angle at vertex \( C \), calculate \( \cos⁡\beta \) if \(\sin\alpha=\frac4{7} \).

\( \frac4{7} \)

\( \frac7{4} \)

\( \frac{\sqrt{33}}{7} \)

\( \frac7{\sqrt{33}} \)

2010015301

Level:

An artillery battery is placed on a cliff. From the edge of the cliff \( 200\,\mathrm{m} \) high, the angle of depression to the ship on the sea is \( 10^{\circ} \). What is the distance \( d \) (See the picture.) from the cliff to the ship? Round the result to two decimal places.

\( 1134.26\,\mathrm{m} \)

\( 1151.75\,\mathrm{m} \)

\( 35.27\,\mathrm{m} \)

\( 203.09\,\mathrm{m} \)

2010015302

Level:

The slope of a staircase is \(30^{\circ}\). What is the depth of a stair if its height is \( 15\,\mathrm{cm} \)? (See the picture.)

\(15\sqrt3\,\mathrm{cm} \)

\(30\,\mathrm{cm} \)

\( \frac{15}{\sqrt3}\,\mathrm{cm} \)

\( 28\,\mathrm{cm} \)

2010015307

Level:

The angle of elevation of a straight road is \(9^{\circ }\). The distance between two places measured along the road is \(2\, \mathrm{km}\). For these places, find the difference in altitudes, i.e. the vertical distance, and round the result to the nearest meter. (See the picture.)

\(313\, \mathrm{m}\)

\(1975\, \mathrm{m}\)

\(317\, \mathrm{m}\)

\(78\, \mathrm{m}\)

2010015308

Level:

A roof gable has the shape of an isosceles triangle with the base of \(14\, \mathrm{m}\) and the height \(6\,\mathrm{m}\). What is the angle between the roof and the horizontal direction? (See the picture.) Round your result to one decimal place.

\(40.6^{\circ}\)

\(49.4^{\circ}\)

\(59.0^{\circ}\)

\(31.0^{\circ}\)

2010015309

Level:

The right angled triangle \(ABC\) is given (See the picture.). Choose the correct statement.

\(\mathrm{tg}\,\alpha = \frac{a} {b}\)

\(\sin \beta= \frac{a} {c}\)

\(\cos \beta = \frac{a} {b}\)

\(\mathrm{tg}\,\beta = \frac{a} {b}\)

2010015310

Level:

The shadow of a \(32\,\mathrm{m}\) high tree is \(40\) meters. At the same moment, the shadow of a person is \(200\,\mathrm{cm}\) long. What is the height of the person?

\(160\,\mathrm{cm}\)

\(170\,\mathrm{cm}\)

\(180\,\mathrm{cm}\)

\(185\,\mathrm{cm}\)

9000035001

Level:

The angle of elevation of a straight road is \(3^{\circ }30'\). The distance between two places measured along the road is \(2\, \mathrm{km}\). For these places, find the difference in altitudes, i.e. the vertical distance, and round the result to the nearest meter. (See the picture.)

\(122\, \mathrm{m}\)

\(276\, \mathrm{m}\)

\(98\, \mathrm{m}\)

\(49\, \mathrm{m}\)

9000035003

Level:

The tree of the height \(12\, \mathrm{m}\) is observed from the place horizontal with the base of the tree. The angle of elevation is \(10^{\circ }\). Find the distance of the observer from the base and round to the nearest meters.

\(68\, \mathrm{m}\)

\(2\, \mathrm{m}\)

\(12\, \mathrm{m}\)

\(48\, \mathrm{m}\)

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