is (0,0) a solution to this system? y ≥ x^2 + x - 4, y> x^2 + 2x + 1
Final Answer:
The point (0,0) does not satisfy the inequality [tex]y ≥ x^2[/tex] + x - 4, as 0 is not greater than or equal to -4. Additionally, it does not satisfy [tex]y > x^2 + 2x + 1[/tex], as 0 is not greater than 1. Therefore, (0,0) does not meet the conditions of the system of inequalities.
Step-by-step explanation:
The point (0,0) is not a solution to the given system of inequalities. First, considering the inequality [tex]y ≥ x^2 + x - 4[/tex], when substituting x=0 and y=0 into the equation, we find that 0 is not greater than or equal to -4. Therefore, (0,0) does not satisfy the conditions of the first inequality. Moving on to the second inequality, [tex]y > x^2 + 2x + 1[/tex], substituting x=0 and y=0 results in 0 not being greater than 1.
Consequently, (0,0) fails to meet the requirements of the second inequality as well. In summary, the point (0,0) does not simultaneously satisfy both inequalities, rendering it unsuitable as a solution to the system.
Analyzing solutions to systems of inequalities involves evaluating each inequality independently to ensure the chosen point satisfies all conditions. In this instance, the failure of (0,0) to satisfy either inequality demonstrates that it does not conform to the system's criteria. When dealing with systems of inequalities, it is essential to carefully assess each component to accurately determine the solution set.
No, (0,0) is not a solution to the given system.
Explanation:The system consists of two inequalities: y ≥ x^2 + x - 4 and y > x^2 + 2x + 1. To check whether (0,0) is a solution, substitute x = 0 and y = 0 into both inequalities. For the first inequality, x^2 + x - 4 becomes -4, and 0 is not greater than or equal to -4. Therefore, (0,0) does not satisfy the first inequality. Moving on to the second inequality, x^2 + 2x + 1 becomes 1, and 0 is not greater than 1. Hence, (0,0) fails to satisfy the second inequality as well. As a result, (0,0) is not a solution to the system of inequalities.
In summary, by substituting the coordinates of (0,0) into both inequalities, we find that the point does not meet the conditions set by either inequality. Therefore, (0,0) is not a solution to the system. This conclusion is based on the specific values obtained through substitution, demonstrating that the coordinates do not satisfy the given inequalities.
What is the x-intercepts of the graph of y = 12x-5x-2
The weight of a can of soup varies jointly with the height and the square of the diameter. a can 8 inches high with a diameter of 3 inches weighs 28.8 ounces. what is the weight of a can that is 4 inches high with a diameter of 2 ​inches?
The weight of a can of soup can be determined using the variation formula. By substituting the given values into the equation, we can find the weight of a can that is 4 inches high with a diameter of 2 inches.
To find the weight of the can that is 4 inches high with a diameter of 2 inches, we can use the given information that the weight of a can of soup varies jointly with the height and the square of the diameter. We are given that a can 8 inches high with a diameter of 3 inches weighs 28.8 ounces. This gives us enough information to set up a proportion to solve for the weight of the can we are looking for.
Let's assign variables to the height (h), diameter (d), and weight (w) of the can. From the given information, we have the following equation:
w = khd^2
Substituting the given values, we have:
28.8 = k(8)(3^2)
Here, we have one equation with one unknown. We can now solve for the constant k by dividing both sides of the equation by (8)(3^2).
After finding the value of k, we can substitute it back into the equation to find the weight of the can that is 4 inches high with a diameter of 2 inches.
w = k(4)(2^2)
Solving for w will give us the weight of the can.
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A human gene carries a certain disease from the mother to the child with a probability rate of 70%. suppose a female carrier of the gene has three children. also assume that the infections of the three children are independent of one another. find the probability that at least one child gets the disease from their mother.
The probability that at least one of the three children gets the disease from their mother is 97.3%.
To find the probability that at least one child gets the disease from their mother when a female carrier of the gene has three children, we can follow these steps:
1. Define the probabilities:
- Probability that a child gets the disease from their mother (given): [tex]\( P(D) = 0.70 \)[/tex].
- Probability that a child does not get the disease from their mother: [tex]\( P(D^c) = 1 - P(D) = 0.30 \)[/tex].
2. Identify the total number of children:
- Number of children: [tex]\( n = 3 \)[/tex].
3. Calculate the probability that none of the children get the disease:
- For all three children to not get the disease, the probability is [tex]\( (P(D^c))^n = (0.30)^3 \)[/tex].
4. Find the probability that at least one child gets the disease:
- The probability that at least one child gets the disease is the complement of the probability that none of the children get the disease.
- Thus, [tex]\( P(\text{at least one child gets the disease}) = 1 - P(\text{none of the children get the disease}) \)[/tex].
Let's do the calculations step by step.
Step-by-Step Calculations:
1. Calculate the probability that none of the children get the disease:
[tex]\[ P(\text{none of the children get the disease}) = (P(D^c))^3 = (0.30)^3 \][/tex]
2. Perform the exponentiation:
[tex]\[ (0.30)^3 = 0.30 \times 0.30 \times 0.30 = 0.027 \][/tex]
3. Calculate the probability that at least one child gets the disease:
[tex]\[ P(\text{at least one child gets the disease}) = 1 - P(\text{none of the children get the disease}) = 1 - 0.027 = 0.973 \][/tex]
Conclusion:
The probability that at least one child gets the disease from their mother is [tex]\( 0.973 \)[/tex], or 97.3%.
Which unit should be studied to review symbols from set theory? Unit 1 Unit 3 Unit 5 Unit 7
A tub filled with 50 quarts of water empties at a rate of 2.5 quarts per minute. Let w = quarts of water left in the tub and t = time in minutes.
Is there a viable solution when time is 30 minutes? Answer: No, the tub will be empty by then.
A tub filled with 50 quarts of water empties at a rate of 2.5 quarts per minute.
Let w be the quarts of water left in the tub.
Let t be the time in minutes.
So, the equation to model this situation is :
Modelling equation: [tex]w=50-2.5t[/tex]
This equation is viable only up to when t is 20 minutes. That will give w = 0. More than 20 minutes is not possible.
What should I do ???
Pepe is putting a fence in his backyard to enclose the garden in form of a triangle. The garden already has sides enclosed with 8 feet and 5 feet of fence, respectively. What can you say about the length of the third side?
Answer:
Step-by-step explanation:
Pepe is putting a fence in his backyard to enclose the garden in the form of a triangle.
In the garden already has sides enclosed with 8 feet and 5 feet.
We know a triangle is possible when sum of length of two sides > third side
so third side < 8 + 5
or third side should be less than 13.
HELPPPPPPP ME PLEASE!!!!!
A cone with volume 5000 m³ is dilated by a scale factor of 15. What is the volume of the resulting cone? Enter your answer in the box. m³
Answer:
[tex]40\ m^{3}[/tex]
Step-by-step explanation:
we know that
If two figures are similar then the ratio of its volumes is equal to the scale factor elevated to the cube
Let
z-----> scale factor
x-----> the volume of the dilated cone
y-----> the volume of the original cone
[tex]z^{3}=\frac{x}{y}[/tex]
In this problem we have
[tex]z=1/5[/tex]
[tex]y=5,000\ m^{3}[/tex]
substitute and solve for x
[tex](1/5)^{3}=\frac{x}{5,000}[/tex]
[tex](1/125)=\frac{x}{5,000}[/tex]
[tex]x=5,000/125=40\ m^{3}[/tex]
For the function f(x)= square root (x-5), find f^-1. What is the range of f^-1? Any explanation and answer is appreciated!!
Final Answer:
The inverse function is [tex]\( f^{-1}(x) = x^2 + 5 \)[/tex] and the range of [tex]\( f^{-1} \)[/tex] is [tex]\( y \geq 5 \)[/tex] or [5, ∞].
Explanation:
To find the inverse function, [tex]\( f^{-1} \)[/tex], for the function [tex]\( f(x) = \sqrt{x-5} \)[/tex], we'll need to follow these steps:
1. Write the function as an equation: [tex]\( y = \sqrt{x-5} \)[/tex].
2. To find the inverse, we exchange the roles of x and y. The equation now reads [tex]\( x = \sqrt{y-5} \)[/tex].
3. Our next task is to solve this equation for y. To do so, we need to eliminate the square root by squaring both sides of the equation:
[tex]\[ x^2 = (\sqrt{y-5})^2 \\\\\[ x^2 = y - 5 \][/tex]
Now, we add 5 to both sides in order to isolate y:
[tex]\[ y = x^2 + 5 \][/tex]
This is our inverse function: [tex]\( f^{-1}(x) = x^2 + 5 \)[/tex].
Regarding the range of [tex]\( f^{-1} \)[/tex], we need to consider the domain of the original function f(x). The original function [tex]\( f(x) = \sqrt{x-5} \)[/tex] is only defined for [tex]\( x \geq 5 \)[/tex], because you cannot take the square root of a negative number in real numbers.
Since the domain of f(x) becomes the range of [tex]\( f^{-1}(x) \)[/tex], the range of the inverse function must be [tex]\( y \geq 5 \)[/tex], because the smallest value of x is 5, which when inputted into the inverse gives us [tex]\( 5^2 + 5 = 25 + 5 = 30 \)[/tex], and it only grows larger for larger values of x.
So the inverse function is [tex]\( f^{-1}(x) = x^2 + 5 \)[/tex] and the range of [tex]\( f^{-1} \)[/tex] is [tex]\( y \geq 5 \)[/tex].
If a company is considering the purchase of a parcel of land that was acquired by the seller for $93,000 is offered for sale at $166,000, is assessed for tax purposes at $103,000, is recognized by the purchaser as easily being worth $156,000, and is purchased for $153,000, the land should be recorded in the purchaser's books at:
Answer:
The land should be recorded in the purchaser's books at : $153,000.
Step-by-step explanation:
Since the parcel of land is purchased by the company for $153,000, hence the land should be recorded in the purchaser's books at : $153,000.
Write an equation that is perpendicular to y = -7x + 2 and passes through (7 , 5)
Johnny bought 6 movie tickets and spent $54 dollars he bought 3/6 children's tickets that cost $8 dollars each the other tickets were adult how much was adult tickets cost?
Find the constant rate of change for each linear function and interpret their meaning.
simplify this expression. (√2 + √3)(√5 - √7)
The simplified expression is √10 - √14 + √15 - √21.
To simplify the expression (√2 + √3)(√5 - √7), we can use the distributive property of multiplication.
Expanding the expression, we get:
(√2 + √3)(√5 - √7) = √2 x √5 + √2 x (-√7) + √3 x √5 + √3 x (-√7)
Now, simplifying each term with FOIL method we have:
√2 * √5 = √(2 x 5) = √10
√2 * (-√7) = -√(2 x 7) = -√14
√3 * √5 = √(3 x 5) = √15
√3 * (-√7) = -√(3 x 7) = -√21
Combining the simplified terms, we get:
√10 - √14 + √15 - √21
Therefore, the simplified expression is √10 - √14 + √15 - √21.
In this process, we applied the distributive property to expand the expression and then simplified each term by multiplying the square roots together. Finally, we combined the like terms to obtain the simplified expression.
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Answer:
√10 + √15 - √14 - √21
Step-by-step explanation:
(√2 + √3)(√5 - √7)
= √2(√5 - √7) + √3(√5 - √7)
= √10 - √14 + √15 - √21
= √10 + √15 - √14 - √21
There's a 40% chance of rain on Tuesday and a 50% chance of rain Friday. What percent will it rain both Tuesday and Friday?
p.s. this is a probability question I think
One number is 6 more than another. the difference between their squares is 192. what are the numbers?
Given the geometric sequence 100, 50, 25, ..., find the 7th term.
HOW ARE RESTRICTIONS AND DISCONTINUITIES CREATED IN RATIONAL EXPRESSIONS? HOW CAN THEY BE ACCOUNTED FOR GRAPHICALLY?
In mathematics, discontinuities and restrictions in rational expressions are caused by values that make the denominator zero, as division by zero is undefined. Graphically, these are represented as vertical asymptotes or holes. They can be accounted for by noting the x-values where the denominator equals zero.
Explanation:In mathematics, discontinuities and restrictions in rational expressions are caused by values that make the denominator of the expression equal to zero, as division by zero is undefined. A rational expression is a ratio of two polynomials, typically written in the form P(x)/Q(x), where P(x) and Q(x) are polynomial expressions and x is a variable.
For example, in the rational expression (x+2)/(x-3), x-3 is the denominator. The restriction is determined by setting the denominator equal to zero. If x-3 equals zero, then the value of x that makes this true is 3. Therefore, x cannot be 3 as this would make the denominator zero, creating a discontinuity in the rational expression.
Graphically, discontinuities in rational expressions are represented as vertical asymptotes or holes. A vertical asymptote occurs when the denominator of the fraction is zero but the numerator is not. A hole occurs when both the numerator and the denominator are zero at the same point. These can be accounted for by noting the x-values where the denominator equals zero.
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Suppose we set θ0=−2,θ1=0.5 in the linear regression hypothesis from q1. what is hθ(6)?
Evaluate the expression. If necessary, round to the nearest hundredth.
log 1,000
3
103
1/3
an internet company charges a one time setup fee of 44.99 and a monthly fee of 29.99 for internet service the company is offering a 25 percent discount on the monthly fee for the first year
Which ratios form a proportion?
3/15, 12/55
8/24, 12/35
5/18, 25/90
4/11, 16/25
What ratio forms a proportion with 9/15?
6/10
16/21
36/50
45/70
Answer: 1. C) 5/18, 25/90
2. A) 6/10
Step-by-step explanation: 1) We need to find the ratios those makes a proportion:
Let us check given options one by one.
3/15, 12/55
Converting them into simplest fractions.
3÷3/15÷3 = 1/5
12/55 can't be reduce more.
1/5 ≠ 12/55
So, 3/15, 12/55 don't form a proportion.
8/24, 12/35
Converting them into simplest fractions.
8÷8/24÷8 = 1/3
12/35 can't be reduce more.
8/24 ≠ 12/35
So, 8/24, 12/35 don't form a proportion.
So, 5/18, 25/90 form a proportion.
4/11, 16/25
Converting them into simplest fractions.
4/11 and 16/25 both can't be reduce more.
4/11≠16/25
So, 4/11, 16/25 don't form a proportion.
___________________________________________________
Let us reduce 9/15 into simplest fraction.
9÷3/15÷3 = 3/5Now, let us convert each and every option in simplest fractions.
6÷2/10÷2 = 3/516÷1/21÷1 = 16/21
36÷2/50÷2 = 18/25
45÷5/70÷5 = 9/14
We can see 6/10 gives lowest fraction 3/5 as 9/15 gives.
Therefore, 6/10 form a proportion with 9/15.
Ben brought two pizzas to a party. He says that sinceramente 1/4 of each pizza is left,the sale a Mountain of each pizza is left. What is his error?
Final answer:
Ben incorrectly assumed that ¼ of two pizzas combined would still be ¼; however, the correct sum is ¼ + ¼ which equals ½ of a pizza. To add fractions, only the numerators are added when denominators match. Mastery of fractions is critical in both academics and day-to-day life.
Explanation:
Ben's error lies in the misunderstanding of fractions and how they add up. If Ben has two pizzas and each has ¼ left, combining the two portions does not result in having ½ of a pizza, but instead, he would have ¼ + ¼ which equals ½. This is because when adding fractions, you only add the numerators (the top numbers) if the denominators (the bottom numbers) are the same. Therefore, ¼ of one pizza plus ¼ of another pizza would equal ½ of a pizza. It's important to understand that fractions represent parts of a whole and that these parts must be added correctly to find the total amount.
Being comfortable with fractions is important not only for academic success but also for everyday life, such as understanding discounts, following recipes, or splitting bills. Utilizing real-life examples like these can help strengthen one's intuitive sense of fractions and make mathematical concepts more relatable.
Sharon and Jacob started at the same place. Jacob walked 3 m north and then 4 m west. Sharon walked 5 m south and 12 m east. How far apart are Jacob and Sharon now?
Consider the coordinate plane:
1. The origin is the point where Sharon and Jacob started - (0,0).
2. North - positive y-direction, south - negetive y-direction.
3. East - positive x-direction, west - negative x-direction.
Then,
if Jacob walked 3 m north and then 4 m west, the point where he is now has coordinates (-4,3);if Sharon walked 5 m south and 12 m east, the point where she is now has coordinates (12,-5).The distance between two points with coordinates [tex](x_1,y_1)[/tex] and [tex](x_2,y_2)[/tex] can be calculated using formula
[tex]D=\sqrt{(x_2-x_1)^2+(y_2-y_1)^2}.[/tex]
Therefore, the distance between Jacob and Sharon is
[tex]D=\sqrt{(12-(-4))^2+(-5-3)^2}=\sqrt{16^2+8^2}=\sqrt{256+64}=\sqrt{320}=8\sqrt{5}\approx 11.18\ m.[/tex]
Fuel prices have increased by 9% this year. The smiths family’s fuel bill for this year is now £1956. How much was the bill likely to have been last year
What is the circumference of the circle in terms of pi? The radius is 2.2 and I got 13.82 but the choices are 1.1, 1.21, 2.2 and 4.4 im so confused so could someone please explain what i did wrong?
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At an amusement park, the probability that a child eats a hot dog and drinks a soda pop is 0.38. The probability that a child eats a hot dog is 0.61, and the probability that a child drinks soda pop is 0.89. What is the probability (rounded to the nearest hundredth) that a child drinks soda pop given that the child has already eaten a hot dog? Hint: cap p left parenthesis cap a vertical line cap b right parenthesis equals start fraction cap p left parenthesis cap a intersection cap b right parenthesis over cap p left parenthesis cap b right parenthesis end fraction
A| 0.34
B| 0.43
C| 0.62
D| 0.69
Mrs. Isabelle is making paper and plastic foam animals for her first-grade class. She is calculating the amount of wasted materials for environmental and financial reasons. Mrs. Isabelle is cutting circles out of square pieces of paper to make paper animals in her class. Enter the polynomial that represents the amount of paper wasted if the class cuts out the biggest circles possible in squares of length l. The polynomial that represents the amount of paper wasted is
The polynomial representing the amount of paper wasted when cutting the largest possible circle out of a square of side length l is (4-π)/4 * l².
Explanation:The question at hand is concerned with finding the polynomial that represents the amount of paper wasted when cutting out the largest possible circles from square pieces of paper. The side length of each square is given as l. The area of each square is l², while the area of the circle that can be cut from the square is calculated using the formula πr², where r is the radius of the circle. Because the largest circle that fits in the square touches all four sides, the diameter of the circle equals the side length l, making the radius r equal to l/2.
To find the polynomial for the wasted paper, first we calculate the area of the circle: π(l/2)², which simplifies to πl²/4. To find the wasted area, subtract the area of the circle from the area of the square: l² - πl²/4. This difference represents the wasted paper and can be further simplified to a single polynomial: (4/4)l² - (π/4)l², which simplifies to (4-π)/4 * l². This is the polynomial representing the amount of paper wasted for each square piece of paper.