fren drew a triangle with no congruent sides and 1 right angle.which term accurately describes the triangle

Answers

Answer 1

Answer: Scalene means that all sides are of unequal length. This is a truth about the triangle, since we know that no sides are congruent.

The most accurate terms to describe the triangle that Fran drew would be scalene and right.

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Is f(x)=7-2x a polynomial function

Answers

Answer:

Yes

Step-by-step explanation:

Yes, this F(x) is a polynomial function involving the first and null integer powers of x: x^0 and x^1.

Final answer:

Yes, f(x) = 7 - 2x is a polynomial function because it satisfies the general form of a polynomial, which requires that every term is in the form ax^n for nonnegative integer n.

Explanation:

Yes, the function f(x) = 7-2x is indeed a polynomial function. A polynomial function is a function such as a quadratic, a cubic, a quartic, and so on, for which the function is of the form f(x) = ax^n, where n is a nonnegative integer. In this case, f(x) = 7-2x can be more comprehensively written as f(x) = -2x^1 + 7x^0, which reflects the general form of a polynomial function.

Learn more about polynomial function here:

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The linear equation of the initial (red ) incline would be y = __x +__

Answers

Answer:

$y=\underline {1.5}x+\underline 0$

Step-by-step explanation:

From the graph,

The initial red incline is a straight line passing through the origin.

So, a straight line passing through the origin is of the form:

$y=mx+0$

Where, 'm' is the slope.

Now, the slope of a given as the change in y value to change in x value.

Consider the two end points of the red line (0, 0) and (4, 6).

The slope with two points $(x_1,y_1)\ and\ (x_2,y_2)$ on the line is given as:

$m=((y_2-y_1))/((x_2-x_1))$

Plug in $x_1=0,y_1=0,x_2=4,y_2=6$ . Therefore, slope is:

$m=(6-0)/(4-0)\nm=(6)/(4)=1.5$

Hence, the equation of the initial red incline is:

$y=\underline {1.5}x+\underline 0$

Find the missing coefficient. (5d − 7)(5d − 6) = 25d2 ++ 42 5 65 –5 –65

Answers

Answer:

-65d

Step-by-step explanation:

(5d − 7)(5d − 6)

$(5d - 7)(5d - 6)$

Multiply it using FOIL method to find the missing term

Multiply 5d inside the second parenthesis and then multiply -7 inside second parenthesis

$5d \cdot 5d= 25d^2$

$5d \cdot -6= -30d^2$

$-7 \cdot 5d=-35d$

$-7 \cdot -6=42$

Now write all the terms together

$25d^2-30d-35d+42$

Combine like terms

$25d^2-65d+42$

HEre -65d is missing

i do believe it is -65d because the equation will look like this in the end
-65d=-65d.

What is the quotient of 1 over (1 plus the square root of 3)?

Answers

You can rationalize the denominator by multiplying by 1 in the form of the conjugate of the denominator divided by itself.

$(1)/(1+√(3))=(1)/(1+√(3))\cdot (1-√(3))/(1-√(3))\n\n=(1-√(3))/(1^(2)-(√(3))^(2))=(1-√(3))/(1-3)\n\n=(√(3)-1)/(2)$

This eqvaluates to approximately 0.3660254037844386.

The smaller of two consecutive numbers is x + 3. Find the sum of the two numbers.

Answers

Answer:

x+3. is the first num

x +4 is the second num

the sum is 2x +7

Answer:

2x + 7

Difference is 1

Step-by-step explanation:

Consecutive numbers are numbers that increase with a steady difference.

For example; 1, 2, 3 all increase with a difference of 1 (2 = 1 + 1; 3 = 2 + 1) and so on.

If the smaller of two consecutive numbers is x + 3, that means the other number which should be bigger is x + 4

Therefore the sum of both numbers is (x + 3) + (x + 4) = 2x + 7.

Their difference is (x + 4) - (x + 3) = 1

And subtracting their sum from x + 8 gives (x + 8) - (2x + 7) = x + 8 - 2x - 7 = -x + 1.

Solve the following problem:

Answers

Answer:

$n^(8)$

Step-by-step explanation:

Given the Quotient Rule of Exponents: $(a^(m))/(a^(n)) = a^((m-n))$ , you must subtract the exponents of each exponential expression (in fractions) before applying the Product Rule of Exponents (I will explain in a while what it means).

First, subtract the exponents of the first fraction, $(n^(5))/(n^(3)) = n^((5 - 3)) = n^(2)$

Next, subtract the exponents of the second fraction: $(n^(9))/(n^(3)) = n^((9 - 3)) = n^(6)$

At this point, we have the following exponential expressions: $n^(2)$ and $n^(6)$ .

Since the required operation is multiplication, then you can apply the Product Rule of Exponents: $a^(m) a^(n) = a^((m+n))$

$n^(2)*n^(6) = n^((2+6)) = n^(8)$

Therefore, the correct answer is $n^(8)$ .

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