Guys, can you please help me find the 2 values of k so that an each trinomial can be factored over the integers for me, please? :) a). 2x²–7x+k
b). kx²–5x+3
Answers
Answer:
~Senpi Boi here~
Step-by-step explanation:
For the values of a and b that can be factored are the following answers, for a it would be 2x^2-6x. And for b it would be x-5/2^2.
(Hope this helps!) ^-^
Related Questions
What type of number is - v 81?
Find the distance between the points (6, 5 √2.) and (4, 3 √2).
Charlie solved an equation, as shown below:Step 1: 5x = 30 Step 2: x = 30 - 5 Step 3: x = 25 Is Charlie's solution correct or incorrect? If the solution is incorrect, explain why it is incorrect and show the correct steps to solve the equation.
Priya has $30 to spend at the school festival. Admission is $4 and each ride ticket is $2. Which inequality represents the greatest number of ride tickets she can buy2n+4<30 2n+3>30 2n+4≤30 2n+4≥30
(B)The mean of matches won is more than the median of matches won.
(C)Most of the participants won many matches, but there were some participants who won very few matches compared to the others.
(D)Most of the participants won very few matches, but there were some participants who won many matches compared to the others.
Answers
Answer:
(C)- Most of the participants won many matches, but there were some participants who won very few matches compared to the others.
Step-by-step explanation:
The Box plot isshifted to the right this means it is right-skewed data thus left tail is much longer than right tail. Hence, Option (C) is correct.
Option (A) means than neither right tail is longer nor left, the box will remain in middle only. So it is incorrect.
Option (B) is incorrect because Box Plot doesn't give us idea about mean.
Option (D) is also not correct because if this happened then box will shifted to the left
Answers
Answer:
1) A rectangle with width of 10 cm and length of 44 cm.
4) A rectangle with width of 9 mm and length of 45 cm.
Step-by-step explanation:
Given:
Length of the rectangle = 32 in.
Width of the rectangle = 8 in.
Now we will find the ratio of length by width.
Now we need to find from the given Option which rectangles are not similar to Carl's Rectangle.
So we will check for each.
1) A rectangle with width of 10 cm and length of 44 cm.
Now we will find the ratio of length by width.
Now we know that;
"When ratio of the dimension of corresponding rectangles are equal then the 2 rectangles are said to be similar."
Now Comparing equation 1 and equation 2 we get;
equation 1 equation 2
Hence This rectangle is not similar to Carl's rectangle.
2) A rectangle with width of 2.5 inch and length of 10 inch.
Now we will find the ratio of length by width.
Now we know that;
"When ratio of the dimension of 2 corresponding rectangles are equal then the 2 rectangles are said to be similar."
Now Comparing equation 1 and equation 2 we get;
equation 1 equation 2
Hence This rectangle is similar to Carl's rectangle.
3) A rectangle with width of 23 cm and length of 92 cm.
Now we will find the ratio of length by width.
Now we know that;
"When ratio of the dimension of 2 corresponding rectangles are equal then the 2 rectangles are said to be similar."
Now Comparing equation 1 and equation 2 we get;
equation 1 equation 2
Hence This rectangle is similar to Carl's rectangle.
4) A rectangle with width of 9 mm and length of 45 cm.
Now we will find the ratio of length by width.
Now we know that;
"When ratio of the dimension of corresponding rectangles are equal then the 2 rectangles are said to be similar."
Now Comparing equation 1 and equation 2 we get;
equation 1 equation 2
Hence This rectangle is not similar to Carl's rectangle.
-8
-6
-2
Answers
Answer:
-6
Step-by-step explanation:
The y-coordinate of B is 2. Adding -8 to it makes the y-coordinate of B' be -6.
2 -8 = -6
Answer:
-6
Step-by-step explanation:
The given translation is
Which means that the original figure will be moved 3 units to the right and 8 units downwards.
Remember, when it comes to translations, when we subtract units to that means the figure will be moved rightwards. And if we subtract units from
, that means the figure will be moved downwards.
So, the original figure has as vertex B(1,2). If we apply the transformation to its vertical cordinate , we would have
Therefore, the right answer is the third choice -6.
Answers
Answers
Joel paints 1/3 of the room each hour.
Working together, they paint (1/6 + 1/3) of the room each hour.
In order to add the fractions, you need a common denominator.
6 will work:
(1/6 + 1/3) = (1/6 + 2/6) = 3/6 = 1/2
Together, they can paint at the rate of 1/2 room/hour .
This rate of work produces 2 hour/room.
2 hours
Answers
let’s create another system of equation.
Let a = 4
and Let b = -3
First equation
=> Let’s pick any numbers to be used. Let’s have number 5
=> 5a + 5b
=> 5 (4) + 5 (-3)
=> 20 + (-15)
negative and positive is equals to negative
=> 20 – 15
=> 5 (this the first value of our equation, let this be the value of X)
Second
=> Pick another number, Let’s have 6
=> 6a + 6b
=> 6 (4) + 6 (-3)
=> 24 + (-18)
=> 24 – 18
=> 6 (this is the value of our second equation, let this value be Y)
Now, we have (A, B) = (4, -3) and (X, Y) = (5,6)
Answer:
A linear equation can be written in several forms. "Standard Form" is #ax+by=c# where #a#, #b# and #c# are constants (numbers).
We want to make two equations that
(i) have this form,
(ii) do not have all the same solutions (the equations are not equivalent), and
(iii) #(4, -3)# is a solution to both.
#ax+by=c#. We want #a#, #b# and #c# so that
#a(4)+b(-3)=c# (This will make (i) and (iii) true.)
Step-by-step explanation: