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To calculate the g-force experienced during a turn, we need to consider the radius of the turn and the velocity of the vehicle. In this case, you mentioned taking a 40 mph turn onto an exit ramp labeled for 25 mph.

To estimate the g-force, we can use the centripetal acceleration formula:

a = (v^2) / r

Where: a is the centripetal acceleration v is the velocity of the vehicle r is the radius of the turn

Since we don't have information about the radius of the turn, we cannot provide an exact calculation. However, I can offer an example calculation assuming a hypothetical radius.

Let's assume the radius of the turn is 50 feet (approximately 15.24 meters). Converting the velocity to meters per second, we have:

v = 40 mph = (40 * 0.44704) m/s ≈ 17.88 m/s

Using the formula, we can calculate the centripetal acceleration:

a = (17.88^2) / 15.24 ≈ 21.02 m/s^2

To convert the acceleration to g-force, divide it by the acceleration due to gravity, which is approximately 9.8 m/s^2:

g-force = 21.02 m/s^2 / 9.8 m/s^2 ≈ 2.14 g

Therefore, if we assume a radius of 50 feet for the turn, you would have experienced approximately 2.14 times the acceleration due to gravity during that maneuver. Keep in mind that this is just an example calculation, and the actual g-force experienced would depend on the specific circumstances of the turn, including the radius, the vehicle's characteristics, and the road conditions. It's always important to adhere to posted speed limits and drive safely to avoid excessive g-forces and maintain control of the vehicle.

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