Answer:
y = 1/8x
Step-by-step explanation:
<h3>REMEBER: When the slopes are two lines are equal, they're parallel.</h3>
Given Equation:
- x - 8y = 48 ---> This equation is in standard form.
⇒ -8y = -1x + 48
⇒ y = 1/8x + 6
As a result, the equation of the parallal line to the given equation x - 8y = 48 is:
⇒ y = 1/8x
<span>To solve this problem, you should calculate the percentage he receives for the first ten suits by multiplying to figure out the total cost of the suits sold and then multiplying by his commission. Next, calculate the amount he receives for the remaining suits in the same way; and then use addition to calculate the total. In this case, Juan sold 10 $250 suits, which would be $2500. He received a 5% commission, which is $125.00. He sold 3 more suits for $250, which is $750. He received a 3% commission on this sale, so 22.50. If you add the two commissions together, Juan received $147.50 in total commissions this week.</span>
Common core math is a series of mathematical standards that a student is taught about in preparation for their academic endeavors in college. Applicable common core standards that could be used here is the PEMDAS rule and the Commutative Property
The PEMDAS rule stands for parenthesis, exponent, multiplication, division, addition and subtraction. When there are multiple operations involve, you use the PEMDAS rule to help you prioritize. But since the equation only involves addition, no need to use PEMDAS. You just have to know the Commutative Property of Addition. This property states that if a + b = c, then b+ a = c. In other words, the final answer would remain unchanged even if your rearrange the order of terms in addition. Applying the property, we solve the equation as it is: <span>34 + 0 + 18 + 26 = 78.</span>
First off, you can rewrite your equation like so: c=(a-b)x. You can then plug in your given constraints for your choices. If a-b = 1 and c = 0 leaving: 0=1(x), x must equal 0 and only 0 as any constant multiplied by 0 equals 0. So that choice is eliminated. Now let's consider when a=b and c != 0. Since we are given a-b and a=b and c != 0, we have:
c = 0x. This contradicts our claim we made about our constraints. C cannot equal zero but we have a-b=0. Therefore, this claim makes no sense as any value for x will not satisfy the equation. This choice is valid. When a=b and c=0, we have: 0 = 0x. Here, x can be any value and still return 0 as an answer. This choice is valid. If a-b=1 and c != 1, we have: c = 1x. Our only rule here is that c cannot equal 1. This means that x can be any value other than 1 so this choice can be marked down. If a != b and c=0, this gives: 0 = (a-b)x. Given that a-b can be any value, x must be equal to only 0 to satisfy this equation so this choice can't be correct. So the right answers are: option 2, option 3, option 4 and option 5.
Answer:
She will spend over 10 pounds on candy.
Step-by-step explanation:
You have to multiply 6(the amount of money for each candy) with whatever number equals 60(the total she will spend) which is 10(the amount of pounds she is buying) so she will spend more than 10 pounds.
Ex.
6×10=60