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3 years ago

Franco was is making breakfast he uses 36 eggs for12 orders. How many eggs does he use per order

Mathematics

2 answers:

Triss [41]3 years ago

7 0

Answer:36 divided by 12=3

Step-by-step explanation:

yanalaym [24]3 years ago

4 0

Answer:

He uses 3 eggs.

Step-by-step explanation:

Divide 36/12, and that's how much he used each order.

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HELP PLEASE 80 POINTS

alexgriva [62]

Answer:

x = 15/p
x = -3

Step-by-step explanation:

<h3>Given</h3>

4(px + 1)=64

Solve for x
Find x when p = -5

<h3>Solution</h3>

4(px + 1) = 64
4(px + 1)/4 = 64/4
px + 1 = 16
px = 15
x = 15/p

<u>When p = -5, substitute p:</u>

x = 15/p
x = 15/(-5) = -3

4 0

3 years ago

Read 2 more answers

A closed container has 5.04 ⋅ 1023 atoms of a gas. Each atom of the gas weighs 1.67 ⋅ 10−24 grams.

MatroZZZ [7]

Answer:

The correct option is the last one (0,84 grams, because (5.04 × 1.67) × (10^23 x 10^-24) = 8.4168 x 10^-1))

Step-by-step explanation:

The first step is to think that you have to multiply the number of atoms for the weight of each atom.

When you work with scientific notation, you should solve the operation for numbers and for the ten base. In this case you solve 5.04 x 1.67 and then the product of the ten bases. For this product you have to sum the exponents of the ten base 23 + (-24) = -1.

Summarizing.... 5.04 x 10^23 x 1.67 x 10^-24 = (5.04 x 1.67) x (10^23x10^-24) ⇒ 5.04 x 10^23 x 1.67 x 10^-24 = 8.4168 x 10^-1

⇒ 5.04 x 10^23 x 1.67 x 10^-24 = 0,84168.

4 0

4 years ago

Solve for x in the equation x2 - 4x-9 = 29.

erastova [34]

Answer:

$x=2+\sqrt{21}\\\\x=2-\sqrt{21}$

Step-by-step explanation:

One is given the following equation;

$x^2-4x-9=29$

The problem asks one to find the roots of the equation. The roots of a quadratic equation are the (x-coordinate) of the points where the graph of the equation intersects the x-axis. In essence, the zeros of the equation, these values can be found using the quadratic formula. In order to do this, one has to ensure that one side of the equation is solved for (0) and in standard form. This can be done with inverse operations;

$x^2-4x-9=29$

$x^2-4x-38=0$

This equation is now in standard form. The standard form of a quadratic equation complies with the following format;

$ax^2+bx+c$

The quadratic formula uses the coefficients of the quadratic equation to find the zeros this equation is as follows,

$\frac{-b(+-)\sqrt{b^2-4ac}}{2a}$

Substitute the coefficients of the given equation in and solve for the roots;

$\frac{-(-4)(+-)\sqrt{(-4)^2-4(1)(-38)}}{2(1)}$

Simplify,

$\frac{-(-4)(+-)\sqrt{(-4)^2-4(1)(-38)}}{2(1)}\\\\=\frac{4(+-)\sqrt{16+152}}{2}\\\\=\frac{4(+-)\sqrt{168}}{2}\\\\=\frac{4(+-)2\sqrt{21}}{2}\\\\=2(+-)\sqrt{21}$

Therefore, the following statement can be made;

$x=2+\sqrt{21}\\\\x=2-\sqrt{21}$

8 0

3 years ago

The field hockey coach is purchasing new uniforms for the team. Company A charges a one-time printing fee of $100 and $12 per un

Paul [167]

You can make this into an inequality, using x as the number of uniforms.
100 + 12x < 61 + 15x
39 < 3x
13 < x, so they must buy more than 13 to get a better deal.

7 0

4 years ago

Who has the answers I need it

Allisa [31]

Answer:

$\sqrt{(2 \sqrt{34} ) {}^{2} - (6) {}^{2} }$

Step-by-step explanation:

theorem of Pythagoras

3 0

3 years ago