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∙ 9y agoHshs
Wiki User
∙ 9y agoThe total displacement of the ball is the difference between the uphill distance (5 meters) and the downhill distance (9 meters), as displacement considers the final position relative to the initial position. Therefore, the displacement of the ball is 9 meters (downhill distance) - 5 meters (uphill distance) = 4 meters.
That distance is known as the total stopping distance, which consists of both the thinking distance (distance traveled while recognizing a hazard and reacting) and the braking distance (distance traveled from applying the brakes to coming to a complete stop). The total stopping distance can vary depending on factors such as speed, road conditions, and vehicle condition.
The distance traveled in meters can be calculated using the equation: distance = (velocity^2) / (2 * acceleration). The acceleration should be converted from g to m/s^2 by multiplying by 9.81 m/s^2 per g. Plugging in the values, the distance traveled would be approximately 32.86 meters.
Saint Paul traveled in the Asian Minor before coming back to Rome to be executed by the Roman Emperor Nero.
You can find the distance using the equation: distance = (final velocity)^2 / (2 * acceleration). Square the final velocity, divide it by twice the acceleration to get the distance traveled before coming to a stop.
In the poem "Ozymandias" by Percy Bysshe Shelley, the traveler is identified as coming from an ancient land, indicating that he has traveled from a place that has a longstanding history or heritage. This detail adds to the sense of timelessness and distance from the once-mighty ruler Ozymandias.
The magnitude of the balls displacement is 9 meters.
A displacement can is a cylindrical device used to accurately measure the volume of liquids or gases. It works by displacing fluid within a chamber, and the volume displayed on its calibrated scale is directly proportional to the amount of fluid displaced. Displacement cans are commonly used in laboratories and industries for precise volume measurement.
The distance a vehicle will travel between putting on the brakes and coming to a stop.
The nerves coming off the spinal cord at L5 and S1 are being pushed out of their normal position.
Original Answer: 400 m/sThis answer is a speed, not a distance.You cannot determine what the distance traveled was since the speed is presumably decreasing for the entire manoeuvre. The best you could do is estimate the distance to be 400 metres. There is insufficient information to do otherwise.For example, if the plane touched down at a speed of 80m/s and didn't change speed until it ran into a wall 10 seconds later, it would have travelled 800m. Of course that would be "coming to a FINAL rest"... :-)
Reaction time is the delay between perceiving a stimulus and initiating a response, like applying the brakes in a car. A faster reaction time reduces reaction distance—the total distance traveled during the reaction time. A slower reaction time results in a longer reaction distance, leading to increased stopping distances.