The combinations of bananas and apples that Elena could buy for exactly $3.50 would be (B) as 3 bananas=1.50 and 2 apples=2.00, therefore the total is $3.50.
The unitary method is a method for solving a problem by the first value of a single unit and then finding the value by multiplying the single value.
If an event can occur in m different ways and if following it, a second event can occur in n different ways, then the two events in succession can occur in m × n different ways.
Let the cost of one apple be 'x' and the cost of one banana be 'y'. Then the cost of apple and bananas is given by the equation:
0.50 x + 1.00y = 3.50
The combinations of bananas and apples that Elena could buy for exactly
$3.50 would be;
(B) as 3 bananas=1.50 and 2 apples=2.00,
Therefore the total is $3.50.
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Answer:
78
Step-by-step explanation:
If t=4
18+t2 would equal “26”
Then 26x3 would be “78”
When t = 4, the part of the equation 18 + t^2 evaluates to 34. We cannot compute - 5x^3 without the value of x.
The subject of the question is Mathematics, more specifically, the topic of algebraic expressions. Given an equation, 18 + t^2 - 5x^3, you'd like to find the value when t = 4. However, the value of x is not provided which is required to fully solve this expression. If we ignore the variable x, and only substitute the value of t in the expression, it will be:
18 + 4^2 = 18 + 16 = 34.
So, when t = 4, the part of the equation 18 + t^2 evaluates to 34. However, we cannot calculate - 5x^3 without having the value of x.
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b. Two pairs of corresponding sides and one pair of corresponding angles
c. Two pairs of corresponding angles
d. Two pairs of corresponding sides
Answer:
C. Two pairs of corresponding angles
Solve for X.
9514 1404 393
Answer:
3) x = 9
4) x = 3
Step-by-step explanation:
3) The two short segments are indicated as having a sum equal to the long segment.
(x +2) +(-5 +x) = 15
2x = 18 . . . . . . . . . . . . add 3
x = 9 . . . . . . . . . divide by 2
(This makes the segments be 9+2 = 11 and -5+9 = 4, which total 15.)
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4) Same deal.
3x +3 = 4x
3 = x . . . . . . . . subtract 3x
(This makes the segments be 3(3) = 9 and 4(3) = 12, where 9+3=12.)
a. five less than nine times y
b. five less than the sum of 9 and y
c. the difference between 9y and 5
d. the product of nine and y, decreased by 5
After examining all options, we find that each one can be represented by the expression 9y - 5. Therefore, there is no option that could NOT be the translation of the given expression.
To find the translation that could NOT be represented by the expression 9y - 5, we need to compare each option with the given expression and determine if they are equivalent or not.
The given expression is: 9y - 5
Now, let's examine each option:
a. five less than nine times y
This option can be represented as 9y - 5, so it is equivalent to the given expression.
b. five less than the sum of 9 and y
This option can be represented as 9 + y - 5, which simplifies to 9y - 5. So, it is also equivalent to the given expression.
c. the difference between 9y and 5
This option can be represented as 9y - 5, so it is equivalent to the given expression.
d. the product of nine and y, decreased by 5
This option can be represented as 9y - 5, so it is also equivalent to the given expression.
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Answer:
b. five less than the sum of 9 and y