An archer shoots an arrow at a 73.0 m distant target, the bull's-eye of which is at same height as the release height of the arrow. (a) At what angle must the arrow be released to hit the bull's-eye if its initial speed is 33.0 m/s? (Although neglected here, the atmosphere provides significant lift to real arrows.) Incorrect: Your answer is incorrect. °
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An archer shoots an arrow at a 73.0 m distant target, the bull's-eye of which is...
An archer shoots an arrow at a 73.0 m distant target, the bull's-eye of which is at same height as the release height of the arrow. (a) At what angle must the arrow be released to hit the bull's-eye if its initial speed is 35.0 m/s? (Although neglected here, the atmosphere provides significant lift to real arrows.) ° (b) There is a large tree halfway between the archer and the target with an overhanging branch 3.50 m above the release...
An archer shoots an arrow at a 75.0 m distant target, the bull's-eye of which is at same height as the release height of the arrow. (a) At what angle must the arrow be released to hit the bull's-eye if its initial speed is 36.0 m/s? (Although neglected here, the atmosphere provides significant lift to real arrows.) ° (b) There is a large tree halfway between the archer and the target with an overhanging branch 3.50 m above the release...
An archer shoots an arrow at a 67.0 m distant target; the bull's-eye of the target is at same height as the release height of the arrow (a) At what angle in degrees must the arrow be released to hit the bull's-eye if its initial speed is 36.0 m/s? (b) There is a large tree halfway between the archer and the target with an overhanging branch 4.79 m above the release height of the arrow. Will the arrow go over...
11 1/2 points| Previous Answers OsColPhysAP2016 3.4.P.029. y Notes Ask Your Teacher An archer shoots an arrow at a 74.0 m distant target; the bull's-eye of the target is at same height as the release height of the arrow. (a) At what angle in degrees must the arrow be released to hit the bull's-eye if its initial speed is 44.0 m/s? 17.3x (b) There is a large tree halfway between the archer and the target with an overhanging branch 3.42...
Artemis shoots an arrow at a target that is a horizontal distance d=65 m away: the bull's eye of the target is at same height of the arrow. At what angle in degrees above the horizontal must the arrow be released to hit the bull's eye if the arrows initial speed in 39 m/s?
An archer shoots an arrow at a 75.0 m distant target; the bull
An archer is able to hit the bull's-eye 58% of the time. If she shoots 8 arrows, what is the probability that she gets exactly 4 bull's- eyes? Assume each shot is independent of the others. 0.2465 0.1131 0.1433 0.00352
An archer is able to hit the bull's-eye 32% of the time. If she shoots 9 arrows, what is the probability that she does not get exactly 4 bull's-eyes? Assume each shot is independent of the others. Express your answer as a percentage rounded to the nearest hundredth.
An archer shoots an arrow from a height of 1.19 m above ground with an initial velocity of 44.3 m/s and an initial angle of 36.7degree above the horizontal. At what time after the release of the arrow from the bow will the arrow be flying exactly horizontally? (in s) 2.6988 3.5893 4.7738 3492 8.4444 11.2311 14.9373 19.8667
Artemis fires an arrow at a target that is a horizontal distance d = 95 m away; the bull’s-eye of the target is at same height as the release height of the arrow Randomized Variables d = 95 m At what angle, in degrees above the horizontal, must the arrow be released to hit the bull’s-eye if the arrow's initial speed is 39 m/s?