to break down the physics of the phenomena, the researchers attached a small device to the free end of the laces that measured acceleration, and then Gregg went for a walk or a jog. This acceleration creates inertia, which is the tendency for an object to keep moving once it is in motion. “We were surprised that the accelerations were so high. They’re like 7 g [units of acceleration] ,” O’Reilly said. “By way of comparison, the highest g on a roller coaster are 6.3. Your foot is experiencing these really high g-forces as you’re running all the time. It’s a biomechanical miracle that all of that impact is absorbed through your body and spine.” The knot itself is under pressure too. The videos showed as the shoelaces bounce up and down with each footfall, the main knot begins to deform. Once the knot opens sufficiently, then the free end of the lace, which is being tugged by inertia, begins to slip out. © NewsHour Productions LLC. All Rights Reserved. Question Use the passage from “The Science Behind Why Your Shoelace Knot Is Doomed to Fail” by Nsikan Akpan to answer the question. Which connection is demonstrated by the passage? (1 point) Responses the impact of acceleration on the spine the impact of acceleration on the spine the impact of inertia on knots the impact of inertia on knots the impact of inertia on the foot the impact of inertia on the foot the impact of acceleration on shoes

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The connection demonstrated by the passage is the impact of inertia on knots. The passage discusses how the inertia, caused by acceleration as the foot moves while running or jogging, affects the shoelace knot by causing it to deform and eventually slip.

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to break down the physics of the phenomena, the researchers attached a small device to the free end of the laces that measured acceleration, and then Gregg went for a walk or a jog. This acceleration creates inertia, which is the tendency for an object to keep moving once it is in motion. “We were surprised that the accelerations were so high. They’re like 7 g [units of acceleration] ,” O’Reilly said. “By way of comparison, the highest g on a roller coaster are 6.3. Your foot is experiencing these really high g-forces as you’re running all the time. It’s a biomechanical miracle that all of that impact is absorbed through your body and spine.” The knot itself is under pressure too. The videos showed as the shoelaces bounce up and down with each footfall, the main knot begins to deform. Once the knot opens sufficiently, then the free end of the lace, which is being tugged by inertia, begins to slip out. © NewsHour Productions LLC. All Rights Reserved. Question Use the passage from “The Science Behind Why Your Shoelace Knot Is Doomed to Fail” by Nsikan Akpan to answer the question. Which connection is demonstrated by the passage? (1 point) Responses the impact of acceleration on the spine the impact of acceleration on the spine the impact of inertia on knots the impact of inertia on knots the impact of inertia on the foot the impact of inertia on the foot the impact of acceleration on shoes

1 answer

The connection demonstrated by the passage is the impact of inertia on knots. The passage discusses how the inertia, caused by acceleration as the foot moves while running or jogging, affects the shoelace knot by causing it to deform and eventually slip.

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The connection demonstrated by the passage is **the impact of inertia on knots**. The passage discusses how the inertia, caused by acceleration as the foot moves while running or jogging, affects the shoelace knot by causing it to deform and eventually slip.