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CanadaON
Grade 12

Solve contextual problems in right triangles II

Interactive practice questions

A soft drink can has a height of $13$13 cm and a radius of $3$3 cm. Find $L$L, the length of the longest straw that can fit into the can (so that the straw is not bent and fits entirely inside the can).

Give your answer rounded down to the nearest cm, to ensure it fits inside the can.

A cylindrical can is depicted with a vertical height measured $13$13 units. Inside the cylinder, a line segment labeled $L$L extends diagonally, which is the length of the longest straw that can fit into the can, likely representing the slant height. At the top of the cylinder, the radius is measured $3$3 units, as shown by a scale line.
Easy
2min

Two flag posts of height $13$13 m and $18$18 m are erected $21$21 m apart. Find $l$l, the length of the string (in metres) needed to join the tops of the two posts, correct to one decimal place.

Easy
2min

A suspension bridge is being built. The top of the concrete tower is $22.2$22.2 metres above the bridge and the connection point for the main cable is $57.4$57.4 metres from the tower.

Assume that the concrete tower and the bridge are perpendicular to each other.

Easy
4min

A ship is $27$27m away from the bottom of a cliff. A lighthouse is located at the top of the cliff. The ship's distance is $34$34m from the bottom of the lighthouse and $37$37m from the top of the lighthouse.

Medium
4min
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Outcomes

12CT.C.1.4

Solve multi-step problems in two and three dimensions, including those that arise from real-world applications (e.g., surveying, navigation), by determining the measures of the sides and angles of right triangles using the primary trigonometric ratios

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