Help please!! On edmentum

The equations y = 2/3x - 7 and 2x - y = -15 have one solution due to their intersection at a single point. Graphing these lines, we can find the point of intersection at (6, -1). This is because there is only one set of values for the variables that satisfy both equations. This is the required explanation for the existence of one solution in these systems.

1. Solution:
We have two equations:

y = 2/3x - 7 ----(1)

2x - y = - 15 ----(2)

Let us graph these two lines using their respective slope and y-intercept:Graph for equation 1

:y = 2/3x - 7 => y-intercept is -7 and slope is 2/3.

Using this slope we can plot other points also. Using slope 2/3, we can move 2 units up and 3 units right from y-intercept and plot another point. Plotting these points and drawing a line passing through them, we get the first line as shown below:

graph{2/3*x-7 [-11.78, 10.25, -14.85, 9.5]}

Graph for equation 2:2x - y = -15 => y-intercept is 15 and slope is 2.

Using this slope we can plot other points also. Using slope 2, we can move 2 units up and 1 unit right from y-intercept and plot another point. Plotting these points and drawing a line passing through them, we get the second line as shown below:graph{2x+15 [-6.19, 11.79, -9.04, 17.02]}

Let us find the point of intersection of these two lines. From the graph, it is seen that the lines intersect at the point (6, -1). Now we need to verify this by substituting these values into the two equations:For first equation:

y = 2/3x - 7

=> -1 = 2/3*6 - 7

=> -1 = 4 - 7

=> -1 = -3 which is true. For second equation: 2x - y = -15 => 2*6 - (-1) = -15 => 12 + 1 = -15 => 13 = -15 which is false. Hence (6, -1) is not the solution for this equation. Therefore there is no solution for this equation.2. Explanation:
When a system of equation has one solution, it means that the two or more lines intersect at a single point. That is to say, there is only one set of values for the variables that will satisfy both equations.For example, let's take a system of equation:y = 2x + 1y = -x + 5The above system of equation can be solved by equating both equations to find the value of x as shown below:2x + 1 = -x + 5 => 3x = 4 => x = 4/3Now, substitute the value of x into one of the above equations to find the value of y:y = 2x + 1 => y = 2(4/3) + 1 => y = 8/3 + 3/3 => y = 11/3Therefore, the solution of the above system of equation is (4/3, 11/3).

This system of equation has only one solution because both lines intersect at a single point. Hence this is the required explanation.The following are three different systems of equation that have one solution:1. y = 3x - 5; y = 5x - 7.2. 3x - 4y = 8; 6x - 8y = 16.3. 2x + 3y = 13; 5x + y = 14.The above systems of equation have one solution because the lines intersect at a single point.

To know more about equation Visit:

https://brainly.com/question/29538993

#SPJ11

In an experimental study, random error due to individual differences can be reduced if a(n) control group is implemented.

One effective way to reduce random error due to individual differences in an experimental study is to include a control group. A control group serves as a baseline comparison group that does not receive the experimental treatment. By having a control group, researchers can isolate and measure the effects of the independent variable more accurately.

The control group provides a point of reference to assess the impact of individual differences on the study's outcome. Since both the experimental group and control group are subject to the same conditions, any observed differences can be attributed to the experimental treatment rather than individual variations.

This helps to minimize the influence of confounding variables and random error associated with individual differences.

By comparing the outcomes of the experimental group and control group, researchers can gain insights into the specific effects of the treatment while controlling for individual differences. This improves the internal validity of the study by reducing the potential bias introduced by individual variability.

In summary, including a control group in an experimental study helps to reduce random error due to individual differences by providing a comparison group that is not exposed to the experimental treatment. This allows researchers to isolate and measure the effects of the independent variable more accurately.

Learn more about Implemented

https://brainly.com/question/32093242

https://brainly.com/question/32181414

#SPJ11

Answer:

Yes

Step-by-step explanation:

You can tell because X does not have a number that repeats it self 2 or more times. I hope this helps.

Answer: 33

Step-by-step explanation:

Area ABC = Area of largest triangle - all the other shapes.

Area of largest = 1/2 bh

Area of largest = 1/2 (6+12)(8+5)

Area of largest = 1/2 (18)(13)

Area of largest = 117

Other shapes:

Area Left small triangle = 1/2 bh

Area Left small triangle = 1/2 (8)(6)

Area Left small triangle = (4)(6)

Area Left small triangle = 24

Area Right small triangle = 1/2 bh

Area Right small triangle = 1/2 (12)(5)

Area Right small triangle =30

Area of rectangle = bh

Area of rectangle = (6)(5)

Area of rectangle = 30

area of ABC = 117 - 24 - 30 - 30

Area of ABC = 33

Since h(x) is the inverse of f(x), applying h to f(x) will yield x. Therefore, the value of h(f(x)) is f(x), as it corresponds to the original input.

If h(x) is the inverse of f(x), it means that when we apply h(x) to f(x), we should obtain x as the result. In other words, h(f(x)) should be equal to x.

Therefore, the value of h(f(x)) is x, which means that the inverse function h(x) "undoes" the effect of f(x) and brings us back to the original input.

To understand this concept better, let's break it down step by step:

1. Start with the given function f(x).

2. Apply the inverse function h(x) to f(x).

3. The result of h(f(x)) should be x, as h(x) undoes the effect of f(x).

4. None of the given options (0, 1, x, f(x)) explicitly indicate the value of x, except for the option f(x) itself.

5. Therefore, the value of h(f(x)) is f(x), as it corresponds to x, which is the desired result.

In conclusion, the value of h(f(x)) is f(x).

For more such questions on yield, click on:

https://brainly.com/question/31302775

#SPJ8

The function y = tan(3π/2)θ has a period of **π** and two asymptotes:

y = 1: This asymptote is reached when θ is a multiple of π/2.

y = -1: This asymptote is reached when θ is a multiple of 3π/2.

The function oscillates between the two asymptotes, with a period of π.

The reason for the asymptotes is that the tangent function is undefined when the denominator of the fraction is zero. In this case, the denominator is zero when θ is a multiple of π/2 or 3π/2.

Therefore, the function approaches the asymptotes as θ approaches these values.

Learn more about function here:

brainly.com/question/11624077

#SPJ11

Answer:

Step-by-step explanation:Let's define the variables:

Let "x" be the number of packages weighing five pounds or less.

Let "y" be the number of packages weighing more than ten pounds.

Based on the given information, we can set up the following equations:

Equation 1: x + y = 13

The total number of packages is 13.

Equation 2: 7x + 15y + 22z = 168

The total cost of the packages is $168.

Equation 3: x = y + 3

The number of packages weighing five pounds or less is three more than those weighing more than ten pounds.

To solve this system of equations, we can use the substitution method or elimination method. Let's use the substitution method here:

From Equation 3, we can rewrite it as:

y = x - 3

Now we substitute this value of y in Equation 1:

x + (x - 3) = 13

2x - 3 = 13

2x = 13 + 3

2x = 16

x = 16/2

x = 8

Substituting the value of x back into Equation 3:

y = x - 3

y = 8 - 3

y = 5

So, we have x = 8 and y = 5.

To find the value of z, we substitute the values of x and y into Equation 2:

7x + 15y + 22z = 168

7(8) + 15(5) + 22z = 168

56 + 75 + 22z = 168

131 + 22z = 168

22z = 168 - 131

22z = 37

z = 37/22

z ≈ 1.68

Therefore, the number of packages weighing five pounds or less is 8, the number of packages weighing more than ten pounds is 5, and the number of packages weighing between five and ten pounds is approximately 1.68.

A. The amount to be invested now, or the present value needed, to accumulate $150,000 after 2 years with a 6% interest compounded quarterly is approximately $132,823.87.

B. To determine the present value needed to accumulate a desired amount in the future, we can use the present value formula in compound interest calculations.

The present value formula is given by:

PV = FV / (1 + r/n)^(n*t)

Where PV is the present value, FV is the future value or desired accumulated amount, r is the interest rate (in decimal form), n is the number of compounding periods per year, and t is the number of years.

In this case, the desired accumulated amount (FV) is $150,000, the interest rate (r) is 6% or 0.06, the compounding is quarterly (n = 4), and the investment period (t) is 2 years.

Substituting these values into the formula, we have:

PV = 150,000 / (1 + 0.06/4)^(4*2)

Simplifying the expression inside the parentheses:

PV = 150,000 / (1 + 0.015)^(8)

Calculating the exponent:

PV = 150,000 / (1.015)^(8)

Evaluating (1.015)^(8):

PV = 150,000 / 1.126825

Finally, calculate the present value:

PV ≈ $132,823.87

Therefore, approximately $132,823.87 needs to be invested now (present value) to accumulate $150,000 after 2 years with a 6% interest compounded quarterly.

Learn more about present value formula:

brainly.com/question/30167280

#SPJ11

Answer:

(3,0)

Step-by-step explanation:

To answer this, just find what was added to A to get to the midpoint, then add that to the midpoint for B.

So first, find how to get from (-1,3) to (1,2). If you add together -1 + 2, the answer is 1, the x value of the midpoint. If you subtract 3 - 1, the answer is 2, the y value of the midpoint.

Now, we just apply these to the midpoint, which should get us to the coordinates of B.

1 + 2 = 3

2 - 2 = 0

(3,0)

So, the coordinates of B are (3,0).

(a) The matrices A₁, A₂, and A₃ corresponding to the transformations T₁, T₂, and T₃, respectively, are:

A₁ = [[0, -1], [-1, 0]]

A₂ = [[0, 1], [-1, 0]]

A₃ = [[-1, 0], [0, 1]]

(b) The geometric effect of a rotation through 90° clockwise followed by a reflection across the line y = -x (T₂ followed by T₁) can be determined by matrix multiplication.

(c) The combined geometric effect of T₁ followed by T₂ followed by T₃ can also be determined using matrix multiplication.

Step 1: To find the matrices corresponding to the transformations T₁, T₂, and T₃, we need to understand the geometric effects of each transformation.

- T₁ represents the reflection across the line y = -x. This transformation changes the sign of both x and y coordinates, so the matrix A₁ is [[0, -1], [-1, 0]].

- T₂ represents the rotation through 90° clockwise. This transformation swaps the x and y coordinates and changes the sign of the new x coordinate, so the matrix A₂ is [[0, 1], [-1, 0]].

- T₃ represents the reflection across the y-axis. This transformation changes the sign of the x coordinate, so the matrix A₃ is [[-1, 0], [0, 1]].

Step 2: To determine the geometric effect of T₂ followed by T₁, we multiply the matrices A₂ and A₁ in that order. Matrix multiplication of A₂ and A₁ yields the result:

A₂A₁ = [[0, -1], [1, 0]]

Step 3: To find the combined geometric effect of T₁ followed by T₂ followed by T₃, we multiply the matrices A₃, A₂, and A₁ in that order. Matrix multiplication of A₃, A₂, and A₁ gives the result:

A₃A₂A₁ = [[0, -1], [-1, 0]]

Therefore, the combined geometric effect of T₁ followed by T₂ followed by T₃ is the same as the geometric effect of a rotation through 90° clockwise followed by a reflection across the line y = -x.

Learn more about Matrices

brainly.com/question/30646566

#SPJ11

(a) The reading on the thermometer will be 7°C after 2 more minutes.

(b) The thermometer will read 2°C 15 minutes after it was taken outdoors.

(a) In the given scenario, the temperature on the thermometer decreases by 8°C in the first minute (from 22°C to 14°C). We can observe that the temperature change is linear, decreasing by 8°C per minute. Therefore, after 2 more minutes, the temperature will decrease by another 2 times 8°C, resulting in a reading of 14°C - 2 times 8°C = 14°C - 16°C = 7°C.

(b) To determine when the thermometer will read 2°C, we need to find the number of minutes it takes for the temperature to decrease by 20°C (from 22°C to 2°C). Since the temperature decreases by 8°C per minute, we divide 20°C by 8°C per minute, which gives us 2.5 minutes. However, since the thermometer cannot read fractional minutes, we round up to the nearest whole minute. Therefore, the thermometer will read 2°C approximately 3 minutes after it was taken outdoors.

It's important to note that these calculations assume a consistent linear rate of temperature change. In reality, temperature changes may not always follow a perfectly linear pattern, and various factors can affect the rate of temperature change.

Learn more about Thermometer

brainly.com/question/28726426

#SPJ11

The hyperbola is centered at the midpoint between the two airports and its branches extend towards each airport. The branch representing the flight path is the one where the signal from your airport arrives first (100 μs earlier).

In this scenario, we have two airports located 48 km apart. The pilot's instrument panel receives radio signals from both airports simultaneously, but there is a time delay between the signals due to the distance and speed of transmission.

Let's assume that the pilot's instrument panel is at the center of the hyperbola. The distance between the two airports is 48 km, so the midpoint between them is at a distance of 24 km from each airport.

Since the signal from your airport always arrives 100 μs earlier than the signal from the other airport, it means that the hyperbola is oriented such that the branch representing the flight path is closer to your airport.

To draw the hyperbola, we mark the midpoint between the two airports and draw two branches extending towards each airport. The branch that is closer to your airport represents the flight path, as it indicates that the signal from your airport reaches the pilot's instrument panel earlier.

The other branch of the hyperbola represents the signals arriving from the other airport, which have a delay of 100 μs compared to the signals from your airport.

In summary, the branch of the hyperbola that represents the flight path is the one where the signal from your airport arrives first, 100 μs earlier than the signal from the other airport.

Learn more about hyperbola here: brainly.com/question/12919612

#SPJ11

Answer:

C. 13,248 square units

Step-by-step explanation:

You need to use the Pythagoras theorem to find the missing side.
a^2+b^2=c^2
c^2-a^2=b^2
115^2-69^2=92^2
92+100=192
192*69=13,248

The correct 95% confidence interval is [96.05, 109.94]. Thus, option E is correct.

M = 103 (estimate)

u = 115 (mean)

T value = 2.228 (t-value)

SM = 3.12 (standard error)

The confidence interval of 95% can be calculated by using  the formula:

Confidence interval = estimate ± (critical value) * (standard error)

Confidence interval = M ± tev * SM

Substituting the above-given values into the equation:

Confidence interval = 103 ± 2.228 * 3.12

Confidence interval = 103 ± 6.94

The 95% confidence interval is then =  [103 - 6.94, 103 + 6.94]

Therefore, we can conclude that the correct 95% confidence interval is [96.05, 109.94].

To learn more about Confidence interval

https://brainly.com/question/32278466

#SPJ4

The complete question is:

If M = 103, u = 115, tev = 2.228, and SM = 3.12, what is the 95% confidence interval?

a. [-12.71, -11.29]

b. [218.89, 224.95]

c. [-18.95, -5.05]

d. [-17.35, -6.65]

e. [96.05, 109.94].

There are 100 packages with a mass greater than 5.6 kg out of the total 200 packages, and approximately 51% of the packages have a mass less than 5.6 kg, including the two packages with a mass of exactly 5.6 kg.

a) To determine how many packages have a mass greater than 5.6 kg, we need to consider the median. The median is the value that separates the lower half from the upper half of a dataset.

Since two packages have a mass of 5.6 kg, and the median is also 5.6 kg, it means that there are 100 packages with a mass less than or equal to 5.6 kg.

Since the total number of packages is 200, we subtract the 100 packages with a mass less than or equal to 5.6 kg from the total to find the number of packages with a mass greater than 5.6 kg. Therefore, there are 200 - 100 = 100 packages with a mass greater than 5.6 kg.

b) To find the percentage of packages with a mass less than 5.6 kg, we need to consider the cumulative distribution. Since the median mass is 5.6 kg, it means that 50% of the packages have a mass less than or equal to 5.6 kg. Additionally, we know that two packages have a mass of exactly 5.6 kg.

Therefore, the percentage of packages with a mass less than 5.6 kg is (100 + 2) / 200 * 100 = 51%. This calculation includes the two packages with exactly 5.6KG and the 100 packages with a mass less than or equal to 5.6KG, out of the total 200 packages.

To learn more about cumulative distribution

https://brainly.com/question/30657052

#SPJ8

Imani should save $3,000/12 = $250 every month to reach her goal of attending her first two semesters of college.

To determine the minimum amount of money Imani should save every month, we need to calculate the remaining 30% of the tuition cost that she is responsible for.

The tuition cost per semester is $5,000. Since Imani's parents will pay 70% of the tuition cost, Imani is responsible for the remaining 30%.

30% of $5,000 is calculated as:

(30/100) * $5,000 = $1,500

Imani needs to save $1,500 every semester. Since she has one year to save for two semesters, she needs to save a total of $1,500 * 2 = $3,000.

Since there are 12 months in a year, Imani should save $3,000/12 = $250 every month to reach her goal of attending her first two semesters of college.

Learn more about Tuition cost here

https://brainly.com/question/14615760

#SPJ11

To find the area of triangle AEB, we use base AB (6 cm) and height 6 cm. Applying the formula (1/2) * base * height, the area is 18 cm².

To find the area of triangle AEB, we need to determine the length of the base AB and the height of the triangle. Since both square ABCD and triangle AABE is standing on the same base AB, the length of AB remains the same for both.

We are given that BD = 6 cm, which means that the length of AB is also 6 cm. Now, to find the height of the triangle, we can consider the height of the square. Since AB is the base of both the square and the triangle, the height of the square is equal to AB.

Therefore, the height of triangle AEB is also 6 cm. Now we can calculate the area of the triangle using the formula: Area = (1/2) * base * height. Plugging in the values, we get Area = (1/2) * 6 cm * 6 cm = 18 cm².

Thus, the area of triangle AEB is 18 square centimeters.

For more questions on the area of a triangle

https://brainly.com/question/30818408

#SPJ8

Out of the given options, the trigonometric function that equals zero is cot 180°.

In the field of Trigonometry, each of the given options represents a trigonometric function evaluated at a particular degree. In this case, we're asked which of the given options is equal to zero. To determine this, we need to understand the values of these functions at different degrees.

sec 180° is equal to -1 because sec 180° = 1/cos 180° and cos 180° = -1. Moving on to csc 270°, this equals -1 as well because csc 270° = 1/sin 270° and sin 270° = -1. Next, cot 270° does not exist because cotangent is equivalent to cosine divided by sine and sin 270° = -1, which would yield an undefined result due to division by zero. Lastly, cot 180° equals to 0 as cot 180° = cos 180° / sin 180° and since sin 180° = 0, the result is 0.

Therefore, the common trigonometric value which equals to '0' is cot 180°.

https://brainly.com/question/11016599

#SPJ2

Answer:

1/4 hour or 0.25 hour

Step-by-step explanation:

1 hour = 60 minutes

⇒ 1 minute = 1/60 hour

⇒ 15 min = 15/60 hour

= 1/4 hour or 0.25 hour

The surface area of solid B is 1024 cm².

If the solids A and B are mathematically similar, it means that their corresponding sides are in proportion, including their volumes and surface areas.

Given that the ratio of the volume of A to the volume of B is 125:64, we can express this as:

Volume of A / Volume of B = 125/64

Let's assume the volume of A is V_A and the volume of B is V_B.

V_A / V_B = 125/64

Now, let's consider the surface area of A, which is given as 400 cm².

We know that the surface area of a solid is proportional to the square of its corresponding sides.

Surface Area of A / Surface Area of B = (Side of A / Side of B)²

400 / Surface Area of B = (Side of A / Side of B)²

Since the solids A and B are mathematically similar, their sides are in the same ratio as their volumes:

Side of A / Side of B = ∛(V_A / V_B) = ∛(125/64)

Now, we can substitute this value back into the equation for the surface area:

400 / Surface Area of B = (∛(125/64))²

400 / Surface Area of B = (5/4)²

400 / Surface Area of B = 25/16

Cross-multiplying:

400 * 16 = Surface Area of B * 25

Surface Area of B = (400 * 16) / 25

Surface Area of B = 25600 / 25

Surface Area of B = 1024 cm²

As a result, solid B has a surface area of 1024 cm2.

for such more question on surface area

https://brainly.com/question/20771646

#SPJ8

Since dim(U) = 4, which means the dimension of the vector space U is 4, it implies that any element y in U can be represented as the root of a rational polynomial P(x) = Q[x] with a degree less than or equal to 4.

The vector space U is defined as U = {a + b√2 + c√3 + d√6 | a, b, c, d ∈ Q}, where Q represents the field of rational numbers. We are given that the dimension of U is 4, which means that there exist four linearly independent vectors that span the space U.

Since every element y in U can be expressed as a linear combination of these linearly independent vectors, we can represent y as y = a + b√2 + c√3 + d√6, where a, b, c, d are rational numbers.

Now, consider constructing a rational polynomial P(x) = Q[x] such that P(y) = 0. Since y belongs to U, it can be written as a linear combination of the basis vectors of U. By substituting y into P(x), we obtain P(y) = P(a + b√2 + c√3 + d√6) = 0.

By utilizing the properties of polynomials, we can determine that the polynomial P(x) has a degree less than or equal to 4. This is because the dimension of U is 4, and any polynomial of higher degree would result in a linearly dependent set of vectors in U.

Therefore, every element y in U must be the root of some rational polynomial P(x) = Q[x] with a degree less than or equal to 4.

Learn more about: vector space

brainly.com/question/30531953

#SPJ11

The yield to maturity of a ten-year, $1000 bond with a 5.2% coupon rate and semi-annual coupons, if the =bond is currently trading for a price of $884, is 6.23%. Thus, option a and option b is correct

Yield to maturity (YTM) is the anticipated overall return on a bond if it is held until maturity, considering all interest payments. To calculate YTM, you need to know the bond's price, coupon rate, face value, and the number of years until maturity.

The formula for calculating YTM is as follows:

YTM = (C + (F-P)/n) / ((F+P)/2) x 100

Where:

C = Interest payment

F = Face value

P = Market price

n = Number of coupon payments

Given that the bond has a coupon rate of 5.2%, a face value of $1000, a maturity of ten years, semi-annual coupon payments, and is currently trading at a price of $884, we can calculate the yield to maturity.

First, let's calculate the semi-annual coupon payment:

Semi-annual coupon rate = 5.2% / 2 = 2.6%

Face value = $1000

Market price = $884

Number of years remaining until maturity = 10 years

Number of semi-annual coupon payments = 2 x 10 = 20

Semi-annual coupon payment = Semi-annual coupon rate x Face value

Semi-annual coupon payment = 2.6% x $1000 = $26

Now, we can calculate the yield to maturity using the formula:

YTM = (C + (F-P)/n) / ((F+P)/2) x 100

YTM = (2 x $26 + ($1000-$884)/20) / (($1000+$884)/2) x 100

YTM = 6.23%

Therefore, If a ten-year, $1000 bond with a 5.2% coupon rate and semi-annual coupons is now selling at $884, the yield to maturity is 6.23%.

Learn more about yield to maturity

https://brainly.com/question/26376004

#SPJ11

Irrationals [tex]={qp∣p,q∈ all INT }[/tex] Explanation:Irrational numbers are those numbers where p and q are integers and q≠0.the fourth option is true.[tex]4√16 = 4*4 = 16[/tex], which is a rational number since it can be expressed in the form of p/q, where p=16 and q=1, which are integers. Hence the fifth option is false.The correct option is a.

The set of all irrational numbers is denoted by Irrationals. Hence the first option is true.2.59 is not an irrational number since it can be represented in the form of p/q, where p=259 and q=100, which are integers. Hence the second option is false.1.2345678… is a repeating decimal number which can be expressed in the form of p/q, where p=12345678 and q=99999999, which are integers. Hence the third option is false.

The set of natural numbers is denoted by N, whereas the set of whole numbers is denoted by W. The set of all natural numbers intersecting with the set of whole numbers is denoted by N ∩ W. Since N is a subset of W, the intersection of these two sets will give us the set of natural numbers. Hence

To know more about integers visit:

https://brainly.com/question/490943

#SPJ11

Answer:

[tex]\huge\boxed{\sf \frac{1}{12} }[/tex]

Step-by-step explanation:

[tex]\displaystyle = \frac{2}{3} \div 8[/tex]

We need to change the division sign into multiplication. For that, we have to multiply the fraction with the reciprocal of the number next to division sign and not the actual number.

[tex]\displaystyle = \frac{2}{3} \times \frac{1}{8} \\\\= \frac{2 \times 1}{3 \times 8} \\\\= \frac{2}{24} \\\\= \frac{1}{12} \\\\\rule[225]{225}{2}[/tex]

Answer:

J) 1/12

Explanation:

Let's divide these fractions:

[tex]\sf{\dfrac{2}{3}\div8}\\\\\\\sf{\dfrac{2}{3}\div\dfrac{8}{1}}\\\\\\\sf{\dfrac{2}{3}\times\dfrac{1}{8}}\\\\\sf{\dfrac{2}{24}}\\\\\\\sf{\dfrac{1}{12}}[/tex]

Hence, the answer is 1/12.

The fraction equivalent to 1/15 is 1/16.

To determine the fraction that is equivalent to 1/15, follow these steps:

Step 1: Express 1/15 as a fraction with a denominator that is a multiple of 10, 100, 1000, and so on.

We want to write 1/15 as a fraction with a denominator of 100.

Multiply both the numerator and denominator by 6 to achieve this.

1/15 = 6/100

Step 2: Simplify the fraction to its lowest terms.

To reduce the fraction to lowest terms, divide both the numerator and denominator by their greatest common factor.

The greatest common factor of 6 and 100 is 6.

Dividing both numerator and denominator by 6 gives:

1/15 = 6/100 = (6 ÷ 6) / (100 ÷ 6) = 1/16

Therefore, the fraction equivalent to 1/15 is 1/16.

Learn more about fraction

https://brainly.com/question/10354322

#SPJ11

The correct answer is B. y=3x-2.

The slope of a line determines its steepness and direction. Parallel lines have the same slope, so for a line to be parallel to 3x+6y=5, it should have a slope of -1/2. Since none of the given options have this slope, none of them are parallel to the line 3x+6y=5. This line has the same slope of 3 as the given line, which makes them parallel.

Learn more about Parallel lines here

https://brainly.com/question/19714372

#SPJ11

The non-zero scalars that satisfy the equation are:

c1 = 1/2

c2 = 1

c3 = 0

To determine if the vectors [2, 5, 23], [-2, -5, -23], and [1, 1, 1] are linearly independent, we can set up the following equation:

c1 * [2] + c2 * [5] + c3 * [23] = [0]

[-2] [-5] [-23]

[1] [1] [1]

Where c1, c2, and c3 are scalar coefficients.

Expanding the equation, we get the following system of equations:

2c1 - 2c2 + c3 = 0

5c1 - 5c2 + c3 = 0

23c1 - 23c2 + c3 = 0

To determine if these vectors are linearly independent, we need to solve this system of equations. We can express it in matrix form as:

| 2 -2 1 | | c1 | | 0 |

| 5 -5 1 | | c2 | = | 0 |

| 23 -23 1 | | c3 | | 0 |

To find the solution, we can row-reduce the augmented matrix:

| 2 -2 1 0 |

| 5 -5 1 0 |

| 23 -23 1 0 |

After row-reduction, the matrix becomes:

| 1 -1/2 0 0 |

| 0 0 1 0 |

| 0 0 0 0 |

From this row-reduced form, we can see that there are infinitely many solutions. The parameterization of the solution is:

c1 = 1/2t

c2 = t

c3 = 0

Where t is a free parameter.

Since there are infinitely many solutions, the vectors [2, 5, 23], [-2, -5, -23], and [1, 1, 1] are linearly dependent.

To find non-zero scalars that satisfy the equation, we can choose any non-zero value for t and substitute it into the parameterized solution. For example, let's choose t = 1:

c1 = 1/2(1) = 1/2

c2 = (1) = 1

c3 = 0

Therefore, the non-zero scalars that satisfy the equation are:

c1 = 1/2

c2 = 1

c3 = 0

Learn more about linearly independent here

https://brainly.com/question/14351372

#SPJ11

By using half-angle identities, we have expressed cos(θ/4) in terms of trigonometric functions of θ as ±√((1 + cosθ) / 4).

To write the expression cos(θ/4) using half-angle identities, we can utilize the half-angle formula for cosine, which states that cos(θ/2) = ±√((1 + cosθ) / 2). By substituting θ/4 in place of θ, we can rewrite cos(θ/4) in terms of trigonometric functions of θ.

To write cos(θ/4) using half-angle identities, we can substitute θ/4 in place of θ in the half-angle formula for cosine. The half-angle formula states that cos(θ/2) = ±√((1 + cosθ) / 2).

Substituting θ/4 in place of θ, we have cos(θ/4) = cos((θ/2) / 2) = cos(θ/2) / √2.

Using the half-angle formula for cosine, we can express cos(θ/2) as ±√((1 + cosθ) / 2). Therefore, we can rewrite cos(θ/4) as ±√((1 + cosθ) / 2) / √2.

Simplifying further, we have cos(θ/4) = ±√((1 + cosθ) / 4).

Thus, by using half-angle identities, we have expressed cos(θ/4) in terms of trigonometric functions of θ as ±√((1 + cosθ) / 4).

Learn more about half-angle here:

brainly.com/question/29173442

#SPJ11

An integer n to be great if n² – 1 is a multiple of 3 because (N + 3)² - 1 = 3m. Since 8 and 3 are relatively prime, it follows that 3 | a.

From the definition, we know that N² - 1 is divisible by because  

We can write this as:

N² - 1 = 3k, where k is some integer.

Adding 6k + 9 to both sides, we have:

N² + 6k + 9

= 3k + 9

= 3(k + 3)

= 3m(m is some integer)

This simplifies to:

(N + 3)² - 1 = 3m, so we can conclude that N + 3 is also great.

2. We want to prove that 3 | 8a if and only if 3 | a.

Let's first assume that 3 | a.

This means that a = 3k for some integer k.

We can then write 8a as:

8a

= 8(3k)

= 24k

= 3(8k), which shows that 3 | 8a.

Now assume that 3 | 8a.

This means that 8a = 3k for some integer k. Since 8 and 3 are relatively prime, it follows that 3 | a.

3. We want to prove that if n is even, then n can be written as either n = 4k or n = 4k + 2, for some integer k.

We can consider two cases:

Case 1: n is divisible by 4If n is divisible by 4, then n can be written as n = 4k for some integer k.

Case 2: n is not divisible by 4If n is not divisible by 4, then we know that n has a remainder of 2 when divided by 4.

This means that we can write n as: n = 4k + 2, where k is some integer.

Together, these two cases show that if n is even, then either

n = 4k or

n = 4k + 2 for some integer k.

Learn more about integer -

brainly.com/question/929808

#SPJ11