find_v how_o many_o digit_n the_o moon_n will_v be_v eclipse_v the_o semidiameter_n of_o the_o moon_n 16.11_o and_o semidiameter_n of_o the_o earth_n shadow_n 43.39_o both_o add_v together_o be_v 59.47_o from_o which_o take_v the_o ☽_o latitude_n 34.56_o and_o the_o remainder_n will_v be_v 24.51_o the_o part_n deficient_a then_o i_o make_v my_o proportional_a term_n as_o viz._n if_o the_o moon_n diameter_n 32_o min._n 22_o se_fw-la will_v give_v 12_o dig_v what_o will_v the_o part_n deficient_a give_v 24_o min._n 51_o se_fw-la and_o the_o work_n will_v be_v thus_o ☽_o diameter_n 1942_o se_fw-la 3288249_o digit_n 720_o m._n 2859332_o part_n deficient_a 1491_o 3173477_o  _fw-fr agregate_v 6030809_o  _fw-fr  _fw-fr 2742560_o digit_n eclipse_v be_v 9_o 13_o 60_o so_o i_o conclude_v in_o anno_fw-la 1663._o feb._n 11_o day_n 14_o hour_n 52_o min._n the_o quantity_n of_o the_o moon_n will_v be_v eclipse_v 9_o digit_n and_o 13_o 60_o part_n of_o a_o digit_fw-la to_o find_v the_o minute_n and_o time_n of_o incidence_n and_o the_o half_a tarriance_n or_o continuance_n of_o the_o moon_n in_o the_o earth_n shadow_n as_o viz._n the_o sum_n of_o the_o semidiameter_n of_o the_o moon_n and_o earth_n shadow_n be_v reduce_v into_o sec_fw-la 3587_o m._n the_o latitude_n of_o the_o moon_n 2093_o agregate_v 5680_o difference_n 1494_o or_o thus_o the_o aggregate_v 5680_o 3754348_o the_o difference_n 1494_o 3174390_o sum_n 6928738_o minute_n of_o incidence_n 48_o m._n 33_o se_fw-la half_a sum_n 3464369_o have_v find_v 48_o m._n 33_o se_fw-la the_o minute_n of_o incidence_n and_o half_a tarriance_n together_o now_o find_v only_o the_o minute_n of_o half_a tarriance_n as_o viz._n the_o difference_n of_o the_o semidiameter_n of_o the_o moon_n and_o earth_n shadow_n be_v 1645_o se_fw-la the_o moon_n latitude_n be_v 2093_o the_o same_o be_v add_v together_o the_o sum_n be_v 3738_o the_o sum_n 3738_o 3.572639_o the_o difference_n 448_o 2.651278_o the_o aggregate_v 6223917_o the_o sem_fw-mi aggregate_v 3131558_o which_o give_v 1294_o se_n or_o 21_o min._n 34_o se_fw-la the_o min._n of_o the_o moon●_n hall_n tarriance_n to_o find_v the_o time_n of_o incidence_n and_o half_a tarriance_n together_o i_o divide_v the_o minute_n of_o incidence_n and_o half_a tarriance_n together_o 48_o m._n 33_o se●_n by_o the_o hourly_a motion_n of_o the_o moon_n for_o the_o sun_n 30_o min._n and_o 44_o sec_fw-la and_o the_o quotient_n give_v the_o time_n of_o incidence_n and_o half_a tarriance_n together_o to_o be_v 1_o hour_n 11_o min._n 30_o sec_fw-la then_o i_o say_v that_o the_o total_a duration_n of_o the_o foresay_a eclipse_n will_v be_v 2_o hour_n 12_o min._n to_o find_v how_o long_a time_n the_o moon_n continue_v in_o the_o earth_n shadow_n in_o the_o performance_n hereof_o i_o divide_v the_o minute_n of_o the_o half_a tarriance_n 21_o m._n 34_o se_fw-la by_o the_o hourly_a motion_n and_o the_o quotient_n will_v be_v 31_o min._n 45_o sec_fw-la the_o time_n of_o her_o half_a continuance_n in_o the_o shadow_n if_o you_o will_v know_v the_o latitude_n of_o the_o moon_n at_o the_o begin_n and_o end_n of_o the_o eclipse_n you_o must_v take_v the_o minute_n of_o incidence_n and_o half_a tarriance_n together_o and_o add_v thereto_o the_o middle_a motion_n of_o the_o sun_n agree_v to_o the_o time_n of_o incidence_n and_o half_a tarriance_n the_o sum_n whereof_o take_v from_o the_o true_a motion_n of_o the_o moon_n latitude_n at_o the_o time_n of_o the_o middle_n of_o the_o eclipse_n and_o the_o remainder_n will_v be_v her_o latitude_n at_o the_o begin_n of_o the_o eclipse_n then_o do_v but_o add_v the_o same_o to_o the_o true_a motion_n of_o her_o latitude_n at_o the_o time_n of_o the_o middle_n of_o the_o eclipse_n and_o the_o aggregate_v will_v be_v the_o true_a latitude_n at_o the_o end_n of_o the_o eclipse_n this_o do_v you_o may_v describe_v the_o eclipse_n in_o a_o figure_n in_o plano_fw-la the_o proportion_n of_o the_o body_n of_o the_o sphere_n one_o to_o another_o the_o sun_n be_v 9_o time_n great_a than_o saturn_n the_o sun_n be_v 14_o time_n great_a than_o jupiter_n the_o sun_n be_v 2535_o time_n great_a than_o mars_n the_o sun_n be_v 1270_o time_n great_a than_o venus_n the_o sun_n be_v 3705_o time_n great_a than_o mercury_n the_o sun_n be_v 1000_o time_n great_a than_o the_o moon_n the_o sun_n be_v 196_o time_n great_a than_o the_o earth_n saturn_n be_v ½_o time_n great_a than_o jupiter_n saturn_n be_v 286_o time_n great_a than_o mars_n saturn_n be_v 152_o time_n great_a than_o venus_n saturn_n be_v 418_o time_n great_a than_o mercury_n saturn_n be_v 1122_o time_n great_a than_o the_o moon_n saturn_n be_v 12_o time_n great_a than_o the_o earth_n jupiter_n be_v 182_o time_n great_a than_o mars_n jupiter_n be_v 84_o time_n great_a than_o venus_n jupiter_n be_v 266_o time_n grater_n than_o mercury_n jupiter_n be_v 714_o time_n great_a than_o the_o moon_n jupiter_n be_v 14_o time_n great_a than_o the_o earth_n mars_n be_v 1½_n time_n great_a than_o mercury_n venus_n be_v 2_o time_n great_a than_o mars_n venus_n be_v 3_o time_n great_a than_o mercury_n moon_n be_v 13_o time_n great_a than_o mars_n moon_n be_v 6_o time_n great_a than_o venus_n moon_n be_v 19_o time_n great_a than_o mercury_n the_o distance_n of_o the_o planet_n among_o themselves_o and_o with_o the_o firmament_n the_o earth_n be_v distant_a from_o the_o firmament_n 49150720_o mile_n saturn_n be_v distant_a from_o the_o firmament_n 127864480_o mile_n jupiter_n be_v distant_a from_o the_o firm._n 35425120_o mile_n mars_n be_v distant_a from_o the_o firmament_n 47490640_o mile_n the_o sun_n be_v distant_a from_o the_o firm._n 44720000_o mile_n the_o moon_n be_v distant_a from_o the_o firm._n 48958080_o mile_n saturn_n be_v distant_a from_o jupiter_n 23138640_o mile_n saturn_n be_v distant_a from_o mars_n 29361440_o mile_n saturn_n be_v distant_a from_o the_o sun_n 3193352_o mile_n saturn_n be_v distant_a from_o the_o moon_n 36171600_o mile_n jupiter_n be_v distant_a from_o mars_n 7722800_o mile_n jupiter_n be_v distant_a from_o the_o sun_n 9294880_o mile_n jupiter_n be_v distant_a from_o the_o moon_n 13532960_o mile_n mars_n be_v distant_a from_o the_o sun_n 1572080_o mile_n mars_n be_v distant_a from_o the_o moon_n 6310160_o mile_n the_o sun_n be_v distant_a from_o the_o moon_n 4238080_o mile_n courteous_a reader_n in_o london_n in_o southwark_n in_o winchester-yard_n over_o against_o st._n mary_n over-●hees_a church-door_n be_v teach_v by_o i_o arithmetic_n in_o whole_a number_n and_o fraction_n etc._n etc._n the_o principle_n of_o geometry_n with_o practice_n and_o demonstration_n and_o survay_v of_o land_n to_o measure_v any_o superficial_a or_o solid_a content_n to_o take_v the_o height_n depth_n length_n or_o breadth_n of_o thing_n which_o be_v environ_v with_o water_n can_v be_v approach_v unto_o the_o doctrine_n of_o triangle_n both_o plane_n and_o spherical_a with_o the_o use_n of_o the_o sign_n tangent_n secant_v and_o logarithm_n a_o description_n demonstration_n and_o use_v of_o instrument_n as_o also_o the_o quadrat_fw-la quadrant_n plane-scale_n secter_n theodolite_n plane-table_n cross-staff_n horizontal_a sphere_n with_o the_o two_o globe_n both_o terrestrial_a and_o celestial_a teach_v navigation_n with_o make_v use_n of_o sundry_a instrument_n in_o fit_v the_o art_n of_o plain_o sail_v and_o mercators_n projection_n and_o to_o calculate_v the_o course_n and_o distance_n of_o any_o two_o place_n in_o the_o world_n howsoever_o situate_v by_o trigonometrical_a calculation_n teach_v astronomy_n the_o work_n of_o any_o proposition-soev_a to_o find_v or_o calculate_v the_o true_a time_n of_o the_o conjunction_n and_o opposition_n of_o any_o planet_n for_o any_o time_n past_a present_a or_o to_o come_v or_o any_o proposition_n or_o question_n that_o be_v prescribe_v in_o this_o almanac_n you_o till_o i_o cease_v to_o be_v my_o own_o tho._n jackson_n finis_fw-la