WebScallops eject water from their shells to provide a thrust force. The graph shows a smoothed graph of actual data for the initial motion of a 25 g scallop speeding up to … WebScallops eject water from their shells to provide a thrust force. (Eigure 1) shows a smoothed graph of actual data for the initial motion of a 25 g scallop speeding up to escape a …

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WebOct 7, 2016 · Scallops use jet propulsion to move from one place to another. Their shells make them denser than water, so they normally rest on ocean floor. If a scallop wishes to remain stationary , hovering a fixed distance above the ocean floor, it must eject water ____ so that the thrust force on the scallop is______ a) upward upward b) upward downward WebScience Physics College Physics: A Strategic Approach (3rd Edition) As shown in the chapter, scallops use jet propulsion to move from one place to another. Their shells make them denser than water, so they normally rest on the ocean floor. If a scallop wishes to remain stationary, hovering a fixed distance above the ocean floor, it must eject water … shop eclipse

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WebScallops eject water from their shells to provide a thrust force. (Figure 1) shows a smoothed graph of actual data for the initial motion of a \ ( 15 \mathrm {~g} \) scallop speeding up to escape a predator. Show transcribed image text Expert Answer 1st step All steps Final answer Step 1/2 Given data m=15g= 15 × 10 − 3 k g View the full answer WebScallops move by rapidly clapping their shells together, forcibly ejecting water from the cavity. This is different than most other bivalves, which use a foot to move. Sources and … WebScallops eject water from their shells to provide a thrust force. The graph shows a smoothed graph of actual data for the initial motion of a 25 g scallop speeding up to … shop eco friendly powersports batteries