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3 years ago

Number 33 in which store can you buy 30 oranges with the least amount of money ?

Mathematics

1 answer:

BartSMP [9]3 years ago

4 0

You simply need to find the price of one orange at each store, and multiply that by 30.

Store A: 5/3= around $1.67= 1.67*30= $50.10

Store B: 3/2= $1.50= 1.5*30= $45.00

Store C: 9/5= $1.80= 1.8*30= $54.00

Store D: $1.25= 1.25*30= $37.50

As you can see above, at Store D, 30 oranges would only cost $37.50, making it the cheapest store to buy oranges.

I hope this helps :)

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$\huge\bold{Given:}$

Length of the base = 16 km.

Length of the hypotenuse = 34 km. $\huge\bold{To\:find:}$

✎ The length of the missing leg '' $a$ ".

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Using Pythagoras theorem, we have

$({perpendicular})^{2} + ({base})^{2} = ({hypotenuse})^{2} \\ ⇢ {a}^{2} + ({16 \: km})^{2} = ({34 \: km})^{2} \\ ⇢ {a}^{2} + 256 \: {km}^{2} = 1156 \: {km}^{2} \\ ⇢ {a}^{2} = 1156 \: {km}^{2} - 256 \: {km}^{2} \\ ⇢ {a}^{2} = 900 \: {km}^{2} \\ ⇢a \: = \sqrt{900 \: {km}^{2} } \\ ⇢a = \sqrt{30 \times 30 \: {km}^{2} } \\ ⇢a = 30 \: km$

$\sf\blue{Therefore,\:the\:length\:of\:the\:missing\:leg\:"a"\:is\:30\:km.}$

$\huge\bold{To\:verify :}$

$( {30 \: km})^{2} + ({16 \: km})^{2} =( {34 \: km})^{2} \\ ⇝900 \: {km}^{2} + 256 \: {km}^{2} = 1156 \: {km}^{2} \\⇝1156 \: {km}^{2} = 1156 \: {km}^{2} \\ ⇝L.H.S.=R. H. S$

Hence verified. ✔

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