Suppose we want to choose 2 objects without replacement from the 4 colors red, blue, green, purple. How many ways can this be done, if the order of the choices matter?
Answers
Answer:
Number of ways = 6
Step-by-step explanation:
Given:
Total number of choices = 4
Taken object choices = 2
Find:
Number of ways
Computation:
Number of ways = [4 × 3] / 2!
Number of ways = [4 × 3] / [2 × 1]
Number of ways = [12] / [2]
Number of ways = 6
Answer:
These are the awnsers to it!
1: 12
2. 6
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What is the solution to the system of equations graphed below?y= 3/2x+2y=-6x+ 32
Answers
Subtract k from 2k
4 - k - 24 > 0
Add 24 to both sides
4 - k > 24
Subtract 4 from both sides
-k > 28
Divide -1 on both sides while flipping the inequality sign.
Final Answer: k < -28
Answers
Answer:
Approximately 4 shops would be the best number of shops which the car is sold, and the number of cars is 20.
Step-by-step explanation:
This is a quadratic function. Therefore, the first thing you need to do is assume some values for x, and then, calculate the value of y, (which would be the number of cars sold). In this way, you can do the graph.
Watch the following attachment, which is a document of excel, showing the graph and some values of x, that I assume
Now, even if you don't have the graph you can estimate the number of shops with the following expression of the summit:
X = -b / 2a
Where:
a: number that goes along with the x elevated.
b: number that goes along with the x, but without being elevated.
In this equation, the first thing we need to do, is rearrange it, that's because we have a (x-2) in the equation, and this could be really annoying.
First let's solve the (x-2)^2
(x-2)^2 = (x-2)(x-2) = x^2 - 2*2x + 2^2 = x^2 - 4x + 4
This is now multiplied by -1.6:
-1.6x^2 + 6.4x - 6.4
Now, multiply 4.8 by x-2:
4.8x - 9.6
Finally, let's arrange this:
-1.6x^2 + 6.4x - 6.4 + 4.8x - 9.6 + 16
-1.6x^2 + 11.2x - 6.4 - 9.6 + 16 = -1.6x^2 + 11.2x
This means that the graph do not have a "y" intercept, and the values of a and b are -1.6 and 11.2, therefore, we can estimate the best number of shops, calculating the summit of the graph (This is because s a quadratic function, and the graph is a parable, and the minimum or maximum point of the graph is reached in the summit)
Summit has X and Y values, the x value is (see formula above):
X = -11.2 / 2 * -1.6 = 3.5
and for the y value, just replace the X value in the equation:
Y = -1.6(3.5)^2 + 11.2(3.5) = -19.6 + 39.2 = 19.6
With this we can conclude that the best number of shops that sells this model of car, is 4 (rounded) and they all sell 20 cars (also rounded). See the graph below in the attachment.
Answer:
The best number of shops at which the car should be sold is 3, from the point of view of the manufacturer.
Step-by-step explanation:
Below we can observe a graph of the function . We have that for x = 3 (blue vertical line) and x = 4 (green vertical line) shops, the manufacturer sells the same number of cars per week y(3) = 19.2 and y(4) = 19.2, and this is the maximum number of car per week that can be sold. Because of operation costs (the less the number of shops, the cheaper the costs), the best number of shops at which the car should be sold from the point of view of the manufacturer is 3.
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Here are the choices.
eagle
birdie
bogey
par
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Answers
A. X^21
B. X^-21
C. X^48
D. X^-48
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The photo is attached.