{"id":2311,"date":"2019-02-08T11:32:38","date_gmt":"2019-02-08T16:32:38","guid":{"rendered":"http:\/\/www.astrorimouski.net\/club\/?page_id=2311"},"modified":"2019-02-08T11:33:31","modified_gmt":"2019-02-08T16:33:31","slug":"jeu-questionnaire-no-15-les-orbites","status":"publish","type":"page","link":"https:\/\/www.astrorimouski.net\/club\/le-coin-du-debutant\/jeu-questionnaire-no-15-les-orbites\/","title":{"rendered":"Jeu questionnaire No 15 : Les orbites"},"content":{"rendered":"<div id=\"watu_quiz\" class=\"quiz-area single-page-quiz\">\n<form action=\"\" method=\"post\" class=\"quiz-form \" id=\"quiz-16\" >\n<div class='watu-question' id='question-1'><div class='question-content'><p><span class='watu_num'>1. <\/span>La loi de la gravitation universelle de Newton appliqu\u00e9e \u00e0 deux corps implique que :<\/p>\n<\/div><input type='hidden' name='question_id[]' value='131' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='731' \/><div class='watu-question-choice'><input type='checkbox' name='answer-131[]' id='answer-id-731' class='answer answer-1  answerof-131' value='731' \/>&nbsp;<label for='answer-id-731' id='answer-label-731' class=' answer label-1'><span class='answer'>G est une constante de la physique dont la valeur d\u00e9pend des unit\u00e9s<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='732' \/><div class='watu-question-choice'><input type='checkbox' name='answer-131[]' id='answer-id-732' class='answer answer-1  answerof-131' value='732' \/>&nbsp;<label for='answer-id-732' id='answer-label-732' class=' answer label-1'><span class='answer'>La valeur de la force d&rsquo;attraction est proportionnelle \u00e0 la somme des deux masses<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='733' \/><div class='watu-question-choice'><input type='checkbox' name='answer-131[]' id='answer-id-733' class='answer answer-1  answerof-131' value='733' \/>&nbsp;<label for='answer-id-733' id='answer-label-733' class=' answer label-1'><span class='answer'>La valeur de la force d&rsquo;attraction est invers\u00e9ment proportionnelle au carr\u00e9 de la distance qui s\u00e9pare les deux masses<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='734' \/><div class='watu-question-choice'><input type='checkbox' name='answer-131[]' id='answer-id-734' class='answer answer-1  answerof-131' value='734' \/>&nbsp;<label for='answer-id-734' id='answer-label-734' class=' answer label-1'><span class='answer'>Toutes ces r\u00e9ponses sont bonnes<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType1' value='checkbox' class=''><\/div><div class='watu-question' id='question-2'><div class='question-content'><p><span class='watu_num'>2. <\/span>Un seul \u00e9nonc\u00e9 est faux. Lequel ?<br \/>\nDans le mouvement circulaire uniforme d&rsquo;un satellite artificiel en r\u00e9volution autour de la Terre,<\/p>\n<\/div><input type='hidden' name='question_id[]' value='132' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='735' \/><div class='watu-question-choice'><input type='checkbox' name='answer-132[]' id='answer-id-735' class='answer answer-2  answerof-132' value='735' \/>&nbsp;<label for='answer-id-735' id='answer-label-735' class=' answer label-2'><span class='answer'>Le mouvement du satellite est acc\u00e9l\u00e9r\u00e9<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='736' \/><div class='watu-question-choice'><input type='checkbox' name='answer-132[]' id='answer-id-736' class='answer answer-2  answerof-132' value='736' \/>&nbsp;<label for='answer-id-736' id='answer-label-736' class=' answer label-2'><span class='answer'>Les \u00e9l\u00e9ments de l&rsquo;orbite comme le rayon et la vitesse d\u00e9pendent de la masse du satellite<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='737' \/><div class='watu-question-choice'><input type='checkbox' name='answer-132[]' id='answer-id-737' class='answer answer-2  answerof-132' value='737' \/>&nbsp;<label for='answer-id-737' id='answer-label-737' class=' answer label-2'><span class='answer'>On peut projeter le satellite hors du champ gravitationnel de la Terre en augmentant sa vitesse d&rsquo;un facteur \u221a2<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='738' \/><div class='watu-question-choice'><input type='checkbox' name='answer-132[]' id='answer-id-738' class='answer answer-2  answerof-132' value='738' \/>&nbsp;<label for='answer-id-738' id='answer-label-738' class=' answer label-2'><span class='answer'>Le d\u00e9terminant du rayon de l&rsquo;orbite comprend le rayon de la Terre<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType2' value='checkbox' class=''><\/div><div class='watu-question' id='question-3'><div class='question-content'><p><span class='watu_num'>3. <\/span>Choisissez la ou les bonnes r\u00e9ponses concernant l&rsquo;orbite de la Terre autour du Soleil.<\/p>\n<\/div><input type='hidden' name='question_id[]' value='133' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='739' \/><div class='watu-question-choice'><input type='checkbox' name='answer-133[]' id='answer-id-739' class='answer answer-3  answerof-133' value='739' \/>&nbsp;<label for='answer-id-739' id='answer-label-739' class=' answer label-3'><span class='answer'>L&rsquo;orbite de la Terre est une ellipse de forte excentricit\u00e9.<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='740' \/><div class='watu-question-choice'><input type='checkbox' name='answer-133[]' id='answer-id-740' class='answer answer-3  answerof-133' value='740' \/>&nbsp;<label for='answer-id-740' id='answer-label-740' class=' answer label-3'><span class='answer'>La vitesse de la Terre sur son orbite est maximale au p\u00e9rih\u00e9lie.<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='741' \/><div class='watu-question-choice'><input type='checkbox' name='answer-133[]' id='answer-id-741' class='answer answer-3  answerof-133' value='741' \/>&nbsp;<label for='answer-id-741' id='answer-label-741' class=' answer label-3'><span class='answer'>La Terre atteint le p\u00e9rih\u00e9lie au cours de l&rsquo;hiver dans l&rsquo;h\u00e9misph\u00e8re nord.<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='742' \/><div class='watu-question-choice'><input type='checkbox' name='answer-133[]' id='answer-id-742' class='answer answer-3  answerof-133' value='742' \/>&nbsp;<label for='answer-id-742' id='answer-label-742' class=' answer label-3'><span class='answer'>Le demi-grand axe de l&rsquo;orbite de la Terre correspond \u00e0 la moiti\u00e9 de l&rsquo;unit\u00e9 astronomique (U.A.)<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType3' value='checkbox' class=''><\/div><div class='watu-question' id='question-4'><div class='question-content'><p><span class='watu_num'>4. <\/span>La 3e loi de Kepler g\u00e9n\u00e9ralis\u00e9e s\u2019\u00e9crit (T^2=K a^3\/M ), o\u00f9 K = 5,92 x 10^11 s^2\u2022kg\u2022m^-3.<br \/>\nSi la p\u00e9riode orbitale de Ganym\u00e8de autour de Jupiter est de 7,155 jours et le demi-grand axe (a) de son orbite est 1 070 400 km,<br \/>\nQuelle est la masse de Jupiter ? (Attention aux unit\u00e9s)<\/p>\n<\/div><input type='hidden' name='question_id[]' value='134' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='743' \/><div class='watu-question-choice'><input type='checkbox' name='answer-134[]' id='answer-id-743' class='answer answer-4  answerof-134' value='743' \/>&nbsp;<label for='answer-id-743' id='answer-label-743' class=' answer label-4'><span class='answer'>6,47 x 10^29 kg<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='744' \/><div class='watu-question-choice'><input type='checkbox' name='answer-134[]' id='answer-id-744' class='answer answer-4  answerof-134' value='744' \/>&nbsp;<label for='answer-id-744' id='answer-label-744' class=' answer label-4'><span class='answer'>8,6 x 10^28 kg<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='745' \/><div class='watu-question-choice'><input type='checkbox' name='answer-134[]' id='answer-id-745' class='answer answer-4  answerof-134' value='745' \/>&nbsp;<label for='answer-id-745' id='answer-label-745' class=' answer label-4'><span class='answer'>1,89 x 10^27 kg<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='746' \/><div class='watu-question-choice'><input type='checkbox' name='answer-134[]' id='answer-id-746' class='answer answer-4  answerof-134' value='746' \/>&nbsp;<label for='answer-id-746' id='answer-label-746' class=' answer label-4'><span class='answer'>La masse est impossible \u00e0 mesurer<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType4' value='checkbox' class=''><\/div><div class='watu-question' id='question-5'><div class='question-content'><p><span class='watu_num'>5. <\/span>Le 12 f\u00e9vrier 2001, la sonde NEAR Shoemaker de la NASA s\u2019est pos\u00e9e sur l\u2019ast\u00e9ro\u00efde \u00c9ros dont la masse est 7,2 x 10^15 kg et dont le rayon est de 10 km. Pour arracher la sonde de l&rsquo;ast\u00e9ro\u00efde, on d\u00e9clenche une explosion propulsive sous la sonde. Quelle vitesse minimale doit obligatoirement atteindre la sonde pour se lib\u00e9rer compl\u00e8tement de l\u2019influence gravitationnelle d\u2019\u00c9ros si la vitesse de lib\u00e9ration v=\u221a(2GM\/r) , o\u00f9 G = 6,67 x 10^-11 N\u2022m^2\u2022kg^-2 ?<\/p>\n<\/div><input type='hidden' name='question_id[]' value='135' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='747' \/><div class='watu-question-choice'><input type='checkbox' name='answer-135[]' id='answer-id-747' class='answer answer-5  answerof-135' value='747' \/>&nbsp;<label for='answer-id-747' id='answer-label-747' class=' answer label-5'><span class='answer'>1 048 m\/s ou 3 773 km\/h<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='748' \/><div class='watu-question-choice'><input type='checkbox' name='answer-135[]' id='answer-id-748' class='answer answer-5  answerof-135' value='748' \/>&nbsp;<label for='answer-id-748' id='answer-label-748' class=' answer label-5'><span class='answer'>9,8 m\/s ou 35,3 km\/h<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='749' \/><div class='watu-question-choice'><input type='checkbox' name='answer-135[]' id='answer-id-749' class='answer answer-5  answerof-135' value='749' \/>&nbsp;<label for='answer-id-749' id='answer-label-749' class=' answer label-5'><span class='answer'>430 m\/s ou 1 548 km\/h<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='750' \/><div class='watu-question-choice'><input type='checkbox' name='answer-135[]' id='answer-id-750' class='answer answer-5  answerof-135' value='750' \/>&nbsp;<label for='answer-id-750' id='answer-label-750' class=' answer label-5'><span class='answer'>La sonde retombera toujours sur \u00c9ros<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType5' value='checkbox' class=''><\/div><div class='watu-question' id='question-6'><div class='question-content'><p><span class='watu_num'>6. <\/span>La th\u00e9orie h\u00e9liocentrique de Copernic ne permettait pas d&rsquo;expliquer facilement :<\/p>\n<\/div><input type='hidden' name='question_id[]' value='136' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='751' \/><div class='watu-question-choice'><input type='checkbox' name='answer-136[]' id='answer-id-751' class='answer answer-6  answerof-136' value='751' \/>&nbsp;<label for='answer-id-751' id='answer-label-751' class=' answer label-6'><span class='answer'>Le mouvement r\u00e9trograde des \u00ab\u00a0astres errants\u00a0\u00bb<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='752' \/><div class='watu-question-choice'><input type='checkbox' name='answer-136[]' id='answer-id-752' class='answer answer-6  answerof-136' value='752' \/>&nbsp;<label for='answer-id-752' id='answer-label-752' class=' answer label-6'><span class='answer'>La pr\u00e9f\u00e9rence zodiacale des \u00ab\u00a0astres errants\u00a0\u00bb<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='753' \/><div class='watu-question-choice'><input type='checkbox' name='answer-136[]' id='answer-id-753' class='answer answer-6  answerof-136' value='753' \/>&nbsp;<label for='answer-id-753' id='answer-label-753' class=' answer label-6'><span class='answer'>La variation de l&rsquo;\u00e9clat des \u00ab\u00a0astres errants\u00a0\u00bb<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType6' value='checkbox' class=''><\/div><div class='watu-question' id='question-7'><div class='question-content'><p><span class='watu_num'>7. <\/span>On peut d\u00e9crire les orbites \u00e0 l&rsquo;aide des \u00e9l\u00e9ments suivants sauf un, lequel ?<\/p>\n<\/div><input type='hidden' name='question_id[]' value='137' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='754' \/><div class='watu-question-choice'><input type='checkbox' name='answer-137[]' id='answer-id-754' class='answer answer-7  answerof-137' value='754' \/>&nbsp;<label for='answer-id-754' id='answer-label-754' class=' answer label-7'><span class='answer'>Le demi-grand axe (a)<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='755' \/><div class='watu-question-choice'><input type='checkbox' name='answer-137[]' id='answer-id-755' class='answer answer-7  answerof-137' value='755' \/>&nbsp;<label for='answer-id-755' id='answer-label-755' class=' answer label-7'><span class='answer'>L&rsquo;excentricit\u00e9 (e)<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='756' \/><div class='watu-question-choice'><input type='checkbox' name='answer-137[]' id='answer-id-756' class='answer answer-7  answerof-137' value='756' \/>&nbsp;<label for='answer-id-756' id='answer-label-756' class=' answer label-7'><span class='answer'>Le foyer primaire (f)<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='757' \/><div class='watu-question-choice'><input type='checkbox' name='answer-137[]' id='answer-id-757' class='answer answer-7  answerof-137' value='757' \/>&nbsp;<label for='answer-id-757' id='answer-label-757' class=' answer label-7'><span class='answer'>L&rsquo;inclinaison (i)<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType7' value='checkbox' class=''><\/div><div class='watu-question' id='question-8'><div class='question-content'><p><span class='watu_num'>8. <\/span>La troisi\u00e8me loi de Kepler s&rsquo;exprime par T^2=a^3 si la p\u00e9riode orbitale <strong>T<\/strong> est en ann\u00e9e et le demi-grand axe <strong>a<\/strong> de l&rsquo;orbite est en unit\u00e9 astronomique (U.A.)<br \/>\nQuelle est la dur\u00e9e de l&rsquo;orbite de Saturne si a = 9,5 U.A. ?<\/p>\n<\/div><input type='hidden' name='question_id[]' value='138' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='758' \/><div class='watu-question-choice'><input type='checkbox' name='answer-138[]' id='answer-id-758' class='answer answer-8  answerof-138' value='758' \/>&nbsp;<label for='answer-id-758' id='answer-label-758' class=' answer label-8'><span class='answer'>12,4 ann\u00e9es<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='759' \/><div class='watu-question-choice'><input type='checkbox' name='answer-138[]' id='answer-id-759' class='answer answer-8  answerof-138' value='759' \/>&nbsp;<label for='answer-id-759' id='answer-label-759' class=' answer label-8'><span class='answer'>103,4 ann\u00e9es<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='760' \/><div class='watu-question-choice'><input type='checkbox' name='answer-138[]' id='answer-id-760' class='answer answer-8  answerof-138' value='760' \/>&nbsp;<label for='answer-id-760' id='answer-label-760' class=' answer label-8'><span class='answer'>74,5 ann\u00e9es<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='761' \/><div class='watu-question-choice'><input type='checkbox' name='answer-138[]' id='answer-id-761' class='answer answer-8  answerof-138' value='761' \/>&nbsp;<label for='answer-id-761' id='answer-label-761' class=' answer label-8'><span class='answer'>29,3 ann\u00e9es<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType8' value='checkbox' class=''><\/div><div class='watu-question' id='question-9'><div class='question-content'><p><span class='watu_num'>9. <\/span>la Station spatiale internationale en orbite autour de la Terre est en chute libre vers le centre de la Terre.<\/p>\n<\/div><input type='hidden' name='question_id[]' value='139' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='762' \/><div class='watu-question-choice'><input type='checkbox' name='answer-139[]' id='answer-id-762' class='answer answer-9  answerof-139' value='762' \/>&nbsp;<label for='answer-id-762' id='answer-label-762' class=' answer label-9'><span class='answer'>Vrai<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='763' \/><div class='watu-question-choice'><input type='checkbox' name='answer-139[]' id='answer-id-763' class='answer answer-9  answerof-139' value='763' \/>&nbsp;<label for='answer-id-763' id='answer-label-763' class=' answer label-9'><span class='answer'>Faux<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType9' value='checkbox' class=''><\/div><div class='watu-question' id='question-10'><div class='question-content'><p><span class='watu_num'>10. <\/span>La forme sph\u00e9rique des orbites plan\u00e9taires avanc\u00e9e par Platon avait \u00e9t\u00e9 \u00e9tablie par des observations astronomiques pr\u00e9cises.<\/p>\n<\/div><input type='hidden' name='question_id[]' value='140' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='764' \/><div class='watu-question-choice'><input type='checkbox' name='answer-140[]' id='answer-id-764' class='answer answer-10  answerof-140' value='764' \/>&nbsp;<label for='answer-id-764' id='answer-label-764' class=' answer label-10'><span class='answer'>Vrai<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='765' \/><div class='watu-question-choice'><input type='checkbox' name='answer-140[]' id='answer-id-765' class='answer answer-10  answerof-140' value='765' \/>&nbsp;<label for='answer-id-765' id='answer-label-765' class=' answer label-10'><span class='answer'>Faux<\/span><\/label><\/div>\n<\/div><input type='hidden' id='questionType10' value='checkbox' class=''><\/div><div class='watu-question' id='question-11'><div class='question-content'><p><span class='watu_num'>11. <\/span>La vitesse d&rsquo;un satellite sur une orbite elliptique varie dans le temps.<\/p>\n<\/div><input type='hidden' name='question_id[]' value='141' \/><div class='watu-questions-wrap '><input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='766' \/><div class='watu-question-choice'><input type='checkbox' name='answer-141[]' id='answer-id-766' class='answer answer-11  answerof-141' value='766' \/>&nbsp;<label for='answer-id-766' id='answer-label-766' class=' answer label-11'><span class='answer'>Vrai<\/span><\/label><\/div>\n<input type='hidden' name='answer_ids[]' class='watu-answer-ids' value='767' \/><div class='watu-question-choice'><input type='checkbox' name='answer-141[]' id='answer-id-767' class='answer answer-11  answerof-141' value='767' \/>&nbsp;<label for='answer-id-767' id='answer-label-767' class=' answer label-11'><span 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