Find the Acceleration of a Car from Rest

What is the acceleration of a car that starts from rest with an initial velocity of 0.02 m/s and uniformly travels for 5.06 seconds covering a distance of 25 meters?

The acceleration of the car can be calculated using the formula: \\(a = \\frac{2(25 - 0.02 \\cdot 5.06)}{5.06^2}\\) Simplifying further: \\(a = \\frac{2(25 - 0.1012)}{25.6036}\\) \\(a = \\frac{2(24.8988)}{25.6036}\\) \\(a = \\frac{49.7976}{25.6036}\\) \\(a \\approx 1.945 \\, \\text{m/s}^2\\) Therefore, the acceleration of the car, given the provided information, is approximately \\(1.945 \\, \\text{m/s}^2\\).

Calculation for Acceleration:

The acceleration of an object is defined as the rate of change of velocity. In this scenario, the car starts from rest (initial velocity = 0.02 m/s) and travels uniformly, covering a distance of 25 meters in 5.06 seconds. To find the acceleration, we use the equation of motion: \[a = \frac{v_f - v_i}{t}\] where: \(a\) = acceleration, \(v_f\) = final velocity, \(v_i\) = initial velocity, \(t\) = time taken. Given that the car starts from rest, the initial velocity (\(v_i\)) is 0.02 m/s. The distance traveled by the car is 25 meters and the time taken is 5.06 seconds. Plugging these values into the equation, we get: \[a = \frac{25 - 0.02 \cdot 5.06}{5.06}\] Solving further: \[a = \frac{25 - 0.1012}{5.06}\] \[a = \frac{24.8988}{5.06}\] \[a \approx 1.945 \, \text{m/s}^2\] Therefore, based on the given data, the acceleration of the car is approximately 1.945 m/s². This means that the car is gaining a speed of 1.945 meters per second every second as it travels the distance of 25 meters within 5.06 seconds.
← Robert la follette the fighting progressive The versatile ruana a fashion staple →