English, asked by alkalonare, 6 months ago

42. Give a brief account of amerigo vepuccis career and achievement. ​

Answers

Answered by alibhaalibha63
1

Answer:

On May 10, 1497, explorer Amerigo Vespucci embarked on his first voyage. On his third and most successful voyage, he discovered present-day Rio de Janeiro and Rio de la Plata. Believing he had discovered a new continent, he called South America the New World. In 1507, America was named after him.

Answered by Anonymous
0

\setlength{\unitlength}{1 cm}\begin{picture}{0}{\thicklines}\put(2,2){\line(0,2){2}}\put(2,2){\line(2,0){3}}\put(5,2){\line(0,2){2}}\put(3,2){\line(1,1){2}}\put(3,2){\line(-1,2){1}}\put(5.2,3){\large{h}}\put(1.6,3){\large{h}}\put(2.3,1.5){\large{x}}\put(3.4,1.5){\large{100 - x}}\put(2.3,2.1){60^{\circ}}}\put(0.6,-0){30^{\circ}}}\put(1.1,1.9){D}\put(-2.3,-0.3){A}\put(-1,-0.5){B}\put(1.1,-0.3){C}\put(-2.2,1.9){E}\end{picture}

\LARGE\bold{Given :}

Bottom distance = 100 m.

Angle of Elevation\bf{\angle_{1}}

Angle of Elevation\bf{\angle_{2}}

\LARGE\bold{To\: find :}

Height of the two poles.

Distance of the points from the feet of the poles.

\LARGE\bold{Solution :}

Let the height of both the poles will be h m.

Let the distance from point A and B be x m.

Hence according to the Question , the distance from point B will be (100 - x) m.

\LARGE\bold{Height \:of\: the\: tower :)}

To find the height of pole (in terms of h) with respect to angle 60°.

Using tan θ and substituting the values in it, we get :

\begin{gathered}:\implies \bf{tan\:\theta = \dfrac{P}{B}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{tan\:60^{\circ} = \dfrac{h}{x}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{\sqrt{3} = \dfrac{h}{x}}\quad[\because \bf{tan\:60^{\circ} = \sqrt{3}}] \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{x = \dfrac{h}{\sqrt{3}}} \\ \\ \\\end{gathered}

\begin{gathered}\boxed{\therefore \bf{x = \dfrac{h}{\sqrt{3}}}} \quad \quad Eq..(i) \ \\ \\ \\\end{gathered}

Hence the distance between base of A and B (in terms of h) is √3/h

Now , by using the tan θ and substituting the values in it, we get :

\begin{gathered}:\implies \bf{tan\:\theta = \dfrac{P}{B}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{tan\:30^{\circ} = \dfrac{h}{100 - x}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{\dfrac{1}{\sqrt{3}} = \dfrac{h}{100 - x}}\quad[\because \bf{tan\:30^{\circ} = \dfrac{1}{\sqrt{3}}}] \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{\dfrac{100 - x}{\sqrt{3}} = h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{\dfrac{100 - x}{\sqrt{3}} = h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100 - x = h\sqrt{3}} \\ \\ \\\end{gathered}

Now , by substituting the value of x from equation (i) , we get :

\begin{gathered}:\implies \bf{100 - \dfrac{h}{\sqrt{3}} = h\sqrt{3}} \\ \\ \\\end{gathered}

@\begin{gathered}:\implies \bf{\dfrac{100\sqrt{3} - h}{\sqrt{3}} = h\sqrt{3}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100\sqrt{3} - h = h\sqrt{3} \times \sqrt{3}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100\sqrt{3} - h = 3h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100\sqrt{3} = h + 3h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100\sqrt{3} = 4h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{\dfrac{100\sqrt{3}}{4} = h} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{25\sqrt{3} = h} \\ \\ \\\end{gathered}

\begin{gathered}\boxed{\therefore \bf{h = 25\sqrt{3}}} \\ \\ \\\end{gathered}

Hence the Height of two towers is 25√3 m.

\LARGE\bold{Distance\: from\: the \:points\: :}

\LARGE\bold{Distance \:between \:A\: and \:B\: :}

Since, we have taken the base distance as x and we know the value of x in terms of h i.e,

\begin{gathered}:\implies \bf{x = \dfrac{h}{\sqrt{3}}} \\ \\ \\\end{gathered}

Now, putting the value of h in the above equation , we get :

\begin{gathered}:\implies \bf{x = \dfrac{25\sqrt{3}}{\sqrt{3}}} \\ \\ \\\end{gathered}

\begin{gathered}:\implies \bf{x = 25 m} \\ \\ \\\end{gathered}

\begin{gathered}\boxed{\therefore \bf{x = 25\:m}} \\ \\ \\\end{gathered}

Hence, the base distance from A to B is 25.

Distance between B and C :

We know that the distance between B and C is (100 - x) m.

So by putting the value of x in it , we get :

\begin{gathered}:\implies \bf{100 - x} \\ \\\end{gathered}

\begin{gathered}:\implies \bf{100 - 25} \\ \\\end{gathered}

\begin{gathered}:\implies \bf{75} \\ \\\end{gathered}

\begin{gathered}\boxed{\therefore \bf{75\:m}} \\ \\ \\\end{gathered}

Hence the distance between B and C is 75 m.

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