Mathematical Problems and Examples, Arranged According to Subjects, from the Senate-House Examination Papers, 1821 to 1836 InclusiveW.P. Grant, 1836 - 335 sider |
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Side 205
... moon . 18. Explain fully the method of finding the longitude at sea by the observed distance between the moon and a star and their altitudes . 19. On board a ship in north latitude , Jupiter is observed on the meridian at 3h . 4m . 56s ...
... moon . 18. Explain fully the method of finding the longitude at sea by the observed distance between the moon and a star and their altitudes . 19. On board a ship in north latitude , Jupiter is observed on the meridian at 3h . 4m . 56s ...
Side 206
... moon being full at the same instant , and in her ascending node ; the next night the moon rises at the same hour . Re- quired the north latitude of the place . 22. By what methods may the variation of the compass be determined ; and to ...
... moon being full at the same instant , and in her ascending node ; the next night the moon rises at the same hour . Re- quired the north latitude of the place . 22. By what methods may the variation of the compass be determined ; and to ...
Side 211
... moon's phases , and why part of the disk is always visible . 78. The times of the sun's rising and setting being calcu- lated for a certain place , what correction is necessary to make them serve for another place not far distant from ...
... moon's phases , and why part of the disk is always visible . 78. The times of the sun's rising and setting being calcu- lated for a certain place , what correction is necessary to make them serve for another place not far distant from ...
Side 214
... moon in winter is longer above the horizon than in summer . 112. Explain by what observations the path of the sun among the fixed stars is determined . 113. Shew that the aberration of a star takes place towards a point of the ecliptic ...
... moon in winter is longer above the horizon than in summer . 112. Explain by what observations the path of the sun among the fixed stars is determined . 113. Shew that the aberration of a star takes place towards a point of the ecliptic ...
Side 215
... . 128. Find the moon's parallax by observations made out of the plane of the meridian , and shew how the effect of refraction may be avoided . 129. Find the length of the longest day in latitude PLANE ASTRONOMY . 215.
... . 128. Find the moon's parallax by observations made out of the plane of the meridian , and shew how the effect of refraction may be avoided . 129. Find the length of the longest day in latitude PLANE ASTRONOMY . 215.
Vanlige uttrykk og setninger
acted altitude angular apply attraction axes axis body centre of force centre of gravity chord circle coefficients cone conic section coordinates curvature cycloid cylinder density described determine diameter direction distance drawn earth eccentricity ecliptic ellipse equal equilibrium Explain Find the equation fixed fluid focus force varying geometrical given angle given point given velocity horizontal plane hyperbola inclined Integrate intersection Investigate latitude latus rectum length lens locus logarithmic longitude meridian moon moon's motion Newton nodes orbit oscillation parabola parallel particle passing perpendicular plane triangle position pressure projected Prop prove quantity ratio rays refraction revolving right angles right ascension roots shew sides sin² sine solid of revolution specific gravity sphere spherical reflector spherical triangle spheroid square straight line string surface tangent Trace the curve true anomaly varies inversely vertex vertical weight
Populære avsnitt
Side 3 - ... cuts the base, the rectangle contained by the sides of the triangle is equal to the rectangle contained by the segments of the base, together with the square on the straight line which bisects the angle.
Side 280 - A cone is a solid figure described by the revolution of a right-angled triangle about one of the sides containing the right angle, which side remains fixed.
Side 126 - If two straight lines meeting one another, be parallel to two straight lines which also meet one another, but are not in the same plane with the first two : the plane which passes through the first two is parallel to the plane passing through the others.
Side 2 - IN right angled triangles, the rectilineal figure described upon the side opposite to the right angle, is equal to the similar and similarly described figures upon the sides containing the right angle...
Side 2 - The angles which one straight line makes with another upon one side of it, are either two right angles, or are together equal to two right angles.
Side 255 - If a body be projected from a given point in a given direction with a given velocity...
Side 4 - If a solid angle be contained by three plane angles, any two of them are greater than the third.
Side 157 - To find the magnitude, direction, and point of application of the resultant of any number of parallel forces acting on a rigid body in one plane.
Side 7 - A and B can do a piece of work in m days, B and C in n days, and C and A in p days. In what time can each alone jjerform the work ? 39.
Side 314 - ... varies inversely as the square of the distance of the particle from the centre.