Advertisements
Advertisements
प्रश्न
An ellipse is described by using an endless string which is passed over two pins. If the axes are 6 cm and 4 cm, the length of the string and distance between the pins are ______.
Advertisements
उत्तर
An ellipse is described by using an endless string which is passed over two pins. If the axes are 6 cm and 4 cm, the length of the string and distance between the pins are `6 + 2sqrt(5)` cm and `2sqrt(5)` cm.
Explanation:
Let equation of ellipse is `x^2/a^2 + y^2/b^2` = 1
Here 2a = 6 ⇒ a = 3
And 2b = 4 ⇒ b = 2
We know that c2 = a2 – b2
= (3)2 – (2)2
= 9 – 4
= 5
c = `sqrt(5)`
We have e = `c/a`
⇒ e = `sqrt(5)/3`
Length of string = 2a + 2ae = 2a(1 + e)
= `6(1 + sqrt(5)/3)`
= `(6(3 + sqrt(5)))/3`
= `6 + 2sqrt(5)`
Distance between the pins = CC'
= 2ae
= `2 xx 3 xx sqrt(5)/3`
= `2sqrt(5)`
APPEARS IN
संबंधित प्रश्न
Find the equation for the ellipse that satisfies the given conditions:
Vertices (0, ±13), foci (0, ±5)
Find the equation for the ellipse that satisfies the given conditions:
Ends of major axis (±3, 0), ends of minor axis (0, ±2)
Find the equation for the ellipse that satisfies the given conditions:
Ends of major axis (0, `+- sqrt5`), ends of minor axis (±1, 0)
Find the equation for the ellipse that satisfies the given conditions:
Length of major axis 26, foci (±5, 0)
Find the equation for the ellipse that satisfies the given conditions:
Length of minor axis 16, foci (0, ±6)
Find the equation for the ellipse that satisfies the given conditions:
Foci (±3, 0), a = 4
Find the equation for the ellipse that satisfies the given conditions:
b = 3, c = 4, centre at the origin; foci on the x axis.
Find the equation for the ellipse that satisfies the given conditions:
Centre at (0, 0), major axis on the y-axis and passes through the points (3, 2) and (1, 6)
Find the equation for the ellipse that satisfies the given conditions:
Major axis on the x-axis and passes through the points (4, 3) and (6, 2).
A man running a racecourse notes that the sum of the distances from the two flag posts form him is always 10 m and the distance between the flag posts is 8 m. find the equation of the posts traced by the man.
Find the equation of the ellipse in the case:
focus is (0, 1), directrix is x + y = 0 and e = \[\frac{1}{2}\] .
Find the equation of the ellipse in the case:
focus is (−1, 1), directrix is x − y + 3 = 0 and e = \[\frac{1}{2}\]
Find the equation of the ellipse in the case:
focus is (−2, 3), directrix is 2x + 3y + 4 = 0 and e = \[\frac{4}{5}\]
Find the equation to the ellipse (referred to its axes as the axes of x and y respectively) which passes through the point (−3, 1) and has eccentricity \[\sqrt{\frac{2}{5}}\]
Find the equation of the ellipse in the case:
eccentricity e = \[\frac{1}{2}\] and foci (± 2, 0)
Find the equation of the ellipse in the case:
eccentricity e = \[\frac{1}{2}\] and semi-major axis = 4
Find the equation of the ellipse in the case:
Vertices (0, ± 13), foci (0, ± 5)
Find the equation of the ellipse in the following case:
Vertices (± 6, 0), foci (± 4, 0)
Find the equation of the ellipse in the following case:
Ends of major axis (± 3, 0), ends of minor axis (0, ± 2)
Find the equation of the ellipse in the following case:
Ends of major axis (0, ±\[\sqrt{5}\] ends of minor axis (± 1, 0)
Find the equation of the ellipse in the following case:
Foci (± 3, 0), a = 4
A bar of given length moves with its extremities on two fixed straight lines at right angles. Any point of the bar describes an ellipse.
If P is a point on the ellipse `x^2/16 + y^2/25` = 1 whose foci are S and S′, then PS + PS′ = 8.
The line 2x + 3y = 12 touches the ellipse `x^2/9 + y^2/4` = 2 at the point (3, 2).
The equation of the ellipse having foci (0, 1), (0, –1) and minor axis of length 1 is ______.
