All categories

3 years ago

Upper Deck $9.25

Mathematics

2 answers:

Elena-2011 [213]3 years ago

8 0

Answer:

Step-by-step explanation:

Purchase 2 upper deck tickets:

$\$100-(2*\$9.25)=\$81.50$

You can then buy 13 right field bleacher tickets before you reach deficit:

$\$81.50/\$6.00=13.583$

Because you cannot purchase a .583 of a ticket, the most you can buy is 13.

vaieri [72.5K]3 years ago

7 0

Answer:

the answers is 13

You might be interested in

The ratio of boys to girls in a class is 2:3. If there are 18 girls in the class, what is the probability of a boy being in the

lukranit [14]

Answer:

0.4

Step-by-step explanation:

If the ratio of boys to girls in a class is 2:3, then

there are 2x boys;
there are 3x girls.

If there are 18 girls in the class, then

$3x=18\\ \\x=6$

Thus, there are

$2\cdot 6=12$ boys;
$3\cdot 6=18$ girls;
$12+18=30$ students in total.

The probability of a boy being in the class is

$P=\dfrac{12}{30}=\dfrac{2}{5}=0.4$

7 0

3 years ago

Please check my answer : Find the equation of the line that has a slope of 8 and passes through the point (-3,4). I got y=8x-20

Paladinen [302]

The answer is y = -8x - 20. If you were to use y = 8x - 20 then you'd get 4 = -44, which, obviously, is not true. To fix it all you need to do is add a negative sign in front of the 8. y = -8x - 20.

7 0

3 years ago

(Pls help) A pie crust recipe calls for 2 cups of butter for each 3 cups of flour. Ella is making enough

blagie [28]

.6 cups of flour Step-by-step explanation:

4 0

3 years ago

What is the ratio of 20 praise and 2000 rupees<br>

AnnZ [28]

1:100 because 20 divide by 20=1 and 2000 divide by 20 =100

8 0

4 years ago

Read 2 more answers

type the slope intercept equation of the line that passes through the point (1,1)&(7,4) enter fraction in simplest form

9966 [12]

$\bf \begin{array}{lllll}
&x_1&y_1&x_2&y_2\\
% (a,b)
&({{ 1}}\quad ,&{{ 1}})\quad 
% (c,d)
&({{ 7}}\quad ,&{{ 4}})
\end{array}
\\\\\\
% slope = m
slope = {{ m}}= \cfrac{rise}{run} \implies 
\cfrac{{{ y_2}}-{{ y_1}}}{{{ x_2}}-{{ x_1}}}\implies \cfrac{4-1}{7-1}\implies \cfrac{3}{6}\implies \cfrac{1}{2}$

$\bf y-{{ y_1}}={{ m}}(x-{{ x_1}})\implies y-1=\cfrac{1}{2}(x-1)\\
\left. \qquad \right. \uparrow\\
\textit{point-slope form}
\\\\\\
y-1=\cfrac{1}{2}x-\cfrac{1}{2}\implies y=\cfrac{1}{2}x-\cfrac{1}{2}+1\implies y=\cfrac{1}{2}x+\cfrac{1}{2}$

5 0

3 years ago