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Type your answer (4 out of 5 ) an angle of \( 10^{\circ} \), what is the car's vertical speed? (Note: \( \sin \left(10^{\circ}\right) \approx 0.17 \) and \( \cos \left(10^{\circ}\right) \approx 0.98 \) ) (Nill 50 miles per hour along

Ask by Rogers Mitchell. in the United States
Feb 02,2025

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Answer

The car's vertical speed is approximately 8.5 miles per hour.

Solution

To determine the car's vertical speed when it's traveling along a road inclined at an angle of \(10^{\circ}\) with a speed of **50 miles per hour**, you can use the sine component of the velocity. **Given:** - Speed of the car, \( S = 50 \) mph - Angle of inclination, \( \theta = 10^{\circ} \) - \( \sin(10^{\circ}) \approx 0.17 \) **Calculation:** \[ \text{Vertical Speed} = S \times \sin(\theta) = 50 \, \text{mph} \times 0.17 = 8.5 \, \text{mph} \] **Answer:** The car's vertical speed is approximately **8.5 miles per hour**.

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To determine the car's vertical speed when it is moving at 50 miles per hour at an angle of \(10^{\circ}\), you can use the sine function. The vertical speed (v) can be calculated by multiplying the speed of the car (50 mph) by the sine of the angle. So, \(v = 50 \times \sin(10^{\circ})\). We substitute the approximate value of \( \sin(10^{\circ}) \approx 0.17\) into the equation: \[ v \approx 50 \times 0.17 \] Thus, \( v \approx 8.5 \) miles per hour. Now we know that, at \(10^{\circ}\), the vertical speed of the car is approximately 8.5 miles per hour! How cool is that? 🚗💨 Ever wondered how skilled engineers measure slopes and angles in real-world applications? They regularly use trigonometry to design ramps, determine the trajectory of vehicles, and even in roller coaster designs! By analyzing angles like \(10^{\circ}\), they ensure safety and efficiency, making sure rides and roads provide both fun and functionality. Science truly supports our adventures! 🎢🔧

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