1. In how many ways can you arrange the letters in the word MATH to create a new word (with or without sense)?

2. A shoe company manufacturer's lady's shoes in 8 styles, 7 colors, and 3 sizes. How many combinations are possible?

3. Daniel got coins from her pocket which accidentally rolled on the floor. If there were 8 possible outcomes, how many coins fell on the floor?​

Explain your answer pls

a) AD can be expressed as AD = 6a - 4b.

b) ABCD is a parallelogram.

a) To express AD in terms of 'a' and/or 'b', we can observe that AD is the difference between AB and BC. Using the given values, we have:

AD = AB - BC

= (8a + 12b) - (2a + 16b)

= 8a + 12b - 2a - 16b

= 6a - 4b

Therefore, AD can be expressed as 6a - 4b.

b) Based on the given information, the shape ABCD is a parallelogram. This is because a parallelogram has opposite sides that are parallel and equal in length, which is satisfied by the given sides AB and DC.

for such more question on parallelogram

https://brainly.com/question/3050890

#SPJ8

The 10 kg child should sit 0.6 meters from the axis of rotation on the seesaw to achieve equilibrium.

To achieve equilibrium on the seesaw, the total torque on each side of the seesaw must be equal. Torque is calculated by multiplying the weight (mass x gravity) by the distance from the axis of rotation.

Let's calculate the torque on each side of the seesaw: -

Child weighing 18 kg:

torque = (18 kg) x (9.8 m/s²) x (2 m)

           = 352.8 Nm

Child weighing 21 kg:

torque = (21 kg) x (9.8 m/s²) x (2 m)

           = 411.6 Nm

To find the position where a 10 kg child should sit to achieve equilibrium, we need to balance the torques.

Since the total torque on one side is greater than the other, the 10 kg child needs to be placed on the side with the lower torque.

Let x be the distance from the axis of rotation where the 10 kg child should sit. The torque exerted by the 10 kg child is:

(10 kg) x (9.8 m/s^2) x (x m) = 98x Nm

Equating the torques:

352.8 Nm + 98x Nm = 411.6 Nm

Simplifying the equation:

98x Nm = 58.8 Nm x = 0.6 m

Therefore, to attain equilibrium, the 10 kg youngster should sit 0.6 metres from the seesaw's axis of rotation.

To learn more about torque from the given link.

https://brainly.com/question/17512177

#SPJ11

Answer:

5.09901951359 or you could round it

Step-by-step explanation:

If the area of a square is 26 and all sides of the square are equal to find this you do the square root of 26.

The length of each helix in the DNA molecule is approximately 7.68 centimeters.

To calculate the length of each helix, we need to multiply the rise per turn by the number of turns and convert the result to centimeters. Given that each helix rises about 32 Å (angstroms) during each complete turn and there are about 2.5 x 10^8 complete turns, we can calculate the length as follows:

Length of each helix = Rise per turn × Number of turns

                   = 32 Å × 2.5 x 10^8 turns

To convert the length from angstroms to centimeters, we can use the conversion factor: 1 Å = 10^(-8) cm.

Length of each helix = 32 Å × 2.5 x 10^8 turns × (10^(-8) cm/Å)

Simplifying the equation:

Length of each helix = 32 × 2.5 × 10^8 × 10^(-8) cm

                   = 8 × 10^(-6) cm

                   = 7.68 cm (rounded to two decimal places)

Therefore, the length of each helix in the DNA molecule is approximately 7.68 centimeters.

To know more about DNA structure and its properties, refer here:

https://brainly.com/question/33306649#

#SPJ11

i) The polar form of Z is:[tex]Z = 3\sqrt 2 \left( {\cos \frac{\pi }{4} + i\sin \frac{\pi }{4}} \right),[/tex]

ii) [tex]Z^7 = -2187 - 2187i[/tex] and is expressed in the form a + bi

Polar Form of Z = -3 -3i.

In order to express the complex number -3-3i in polar form, we use the formula:

r = \sqrt {a^2 + b^2 }

where a = -3 and b = -3,

hence;[tex]r &= \sqrt {a^2 + b^2 } \\&= \sqrt {{\left( { - 3} \right)^2} + {\left( { - 3} \right)^2}} \\&= \sqrt {18} \\&= 3\sqrt 2 \[/tex]

We can calculate the argument [tex]\theta of Z as:\theta = \tan ^{ - 1} \left( {\frac{b}{a}} \right)[/tex]

where a = -3 and b = -3,

hence;

  [tex]\theta &= \tan ^{ - 1} \left( {\frac{b}{a}} \right) \\&= \tan ^{ - 1} \left( {\frac{{ - 3}}{{ - 3}}} \right) \\&= \tan ^{ - 1} \left( 1 \right) \\&= \frac{\pi }{4} \[/tex]

Therefore, the polar form of Z is:

Z = [tex]3\sqrt 2 \left( {\cos \frac{\pi }{4} + i\sin \frac{\pi }{4}} \right)[/tex]

ii)  Z^7 = -2187 - 2187i and is expressed in the form a + bi

Since we already have Z in polar form we can now easily find

Z^7.Z^7 = [tex]{\left( {3\sqrt 2 } \right)^7}{\left( {\cos \frac{\pi }{4} + i\sin \frac{\pi }{4}} \right)^7}[/tex]

We can expand [tex]\left( {\cos \frac{\pi }{4} + i\sin \frac{\pi }{4}} \right)^7[/tex] using De Moivre's theorem:

[tex]\left( {\cos \theta + i\sin \theta } \right)^n = \cos n\theta + i\sin n\ \\theta\\Therefore; \\Z^7 &= {\left( {3\sqrt 2 } \right)^7}\left( {\cos \frac{{7\pi }}{4} + i\sin \frac{{7\pi }}{4}} \right) \\&= 3^7\left( {2\sqrt 2 } \right)\left( {\cos \left( {\frac{{6\pi }}{4} + \frac{\pi }{4}} \right) + i\sin \left( {\frac{{6\pi }}{4} + \frac{\pi }{4}} \right)} \right) \\&= 2187\sqrt 2 \left( { - \frac{1}{{\sqrt 2 }}} \right) + 2187i\left( { - \frac{1}{{\sqrt 2 }}} \right) \\&=  - 2187 - 2187i \[/tex]

Thus, Z^7 = -2187 - 2187i and is expressed in the form a + bi

Learn more about Polar form from this link :

https://brainly.com/question/28967624

#SPJ11

Answer: The original price is $460.

Step-by-step explanation: Since the sofa is sold at a 68% discount (0.68) from the original price, the sofa during the sale cost 32% (0.32) of the original price. Therefore, $147.20 =  (0.32)* original price and dividing both sides by 0.32, the original price is $460.

The solution to the system of equations is:

x = -2, y = -4, z = -3

So, the correct option is:

e. x = -2, y = -4, z = -3; (-2, -4, -3)

To solve the given system of equations:

1) x + 2y + 2z = -16

2) 4y + 5z = -31

3) z = -3

We can substitute the value of z from equation 3 into equations 1 and 2 to solve for x and y.

Substituting z = -3 into equation 1:

x + 2y + 2(-3) = -16

x + 2y - 6 = -16

x + 2y = -16 + 6

x + 2y = -10

Substituting z = -3 into equation 2:

4y + 5(-3) = -31

4y - 15 = -31

4y = -31 + 15

4y = -16

y = -16/4

y = -4

Now, substituting y = -4 back into equation 1:

x + 2(-4) = -10

x - 8 = -10

x = -10 + 8

x = -2

Therefore, the solution to the system of equations is:

x = -2, y = -4, z = -3

So, the correct option is:

e. x = -2, y = -4, z = -3; (-2, -4, -3)

Learn more about option

https://brainly.com/question/32701522

#SPJ11

The Taylor series expansion of ln(1+x) at x=2.

To find the Taylor series expansion of ln(1+x) at x=2, we can start by finding the derivatives of ln(1+x) with respect to x and evaluating them at x=2.

The derivatives of ln(1+x) are:

f(x) = ln(1+x)

f'(x) = 1/(1+x)

f''(x) = -1/(1+x)^2

f'''(x) = 2/(1+x)^3

f''''(x) = -6/(1+x)^4

...

Evaluating these derivatives at x=2, we get:

f(2) = ln(1+2) = ln(3)

f'(2) = 1/(1+2) = 1/3

f''(2) = -1/(1+2)^2 = -1/9

f'''(2) = 2/(1+2)^3 = 2/27

f''''(2) = -6/(1+2)^4 = -6/81

The Taylor series expansion of ln(1+x) centered at x=2 is given by:

ln(1+x) = f(2) + f'(2)(x-2) + f''(2)(x-2)^2/2! + f'''(2)(x-2)^3/3! + f''''(2)(x-2)^4/4! + ...

Substituting the values we calculated earlier, the Taylor series expansion becomes:

ln(1+x) = ln(3) + (1/3)(x-2) - (1/9)(x-2)^2/2 + (2/27)(x-2)^3/3 - (6/81)(x-2)^4/4 + ...

This is the Taylor series expansion of ln(1+x) at x=2.

Learn more about taylor series at https://brainly.com/question/32940568

#SPJ11

[tex] \sin(x) = \frac{opp}{hyp} \\ \sin(k) = \frac{5}{10} \\ \sin(k) = \frac{1}{2} [/tex]

D is the correct answer

PLEASE MARK ME AS BRAINLIEST

Answer:

169 / 14

Step-by-step explanation:

7/1 + 71/14 = 7/1 * 14/14 + 71/14

= 98/14 + 71/14

= (98 + 71) / 14

= 169 / 14

So, the answer is 169 / 14

Answer:

  C.  75°

Step-by-step explanation:

You want the angle marked ∠1 in the trapezoid shown.

Where a transversal crosses parallel lines, same-side interior angles are supplementary. In this trapezoid, this means the angles at the right side of the figure are supplementary:

  ∠1 + 105° = 180°

  ∠1 = 75° . . . . . . . . . . . . subtract 105°

__

Additional comment

The given relation also means that the unmarked angle is supplementary to the one marked 50°. The unmarked angle will be 130°.

<95141404393>

A: ZABC is a right angle. (Given)

B: DB bisects ZABC. (Given)

C: m/ABD = m/CBD. (Definition of angle bisector)

D: m/ABD + m/CBD = 90°. (Sum of angles in a right triangle)

By substitution property, m/CBD + m/CBD = 90° should be m/ABD + m/CBD = 90°.

A: Given: ZABC is a right angle.

B: Given: DB bisects ZABC.

C: To prove: m/CBD = 45°

D: Proof:

ZABC is a right angle. (Given)

DB bisects ZABC. (Given)

m/ABD = m/CBD. (Definition of angle bisector)

m/ABD + m/CBD = 90°. (Sum of angles in a right triangle)

Substitute m/CBD with m/ABD in equation (4).

m/ABD + m/ABD = 90°.

2 [tex]\times[/tex] m/ABD = 90°. (Simplify equation (5))

Divide both sides of equation (6) by 2.

m/ABD = 45°.

Therefore, m/CBD = 45°. (Substitute m/ABD with 45°)

Thus, we have proved that m/CBD is equal to 45° based on the given statements and the reasoning provided.

Please note that in step 5, the substitution of m/CBD with m/ABD is valid because DB bisects ZABC. By definition, an angle bisector divides an angle into two congruent angles.

Therefore, m/ABD and m/CBD are equal.

For similar question on substitution property.

https://brainly.com/question/29058226  

#SPJ8

Five quarts is equal to twenty cups (5qt= 20 c).

In the US customary system, 1 quart (qt) is equivalent to 4 cups (c). This means that each quart can be divided into 4 equal parts, each representing a cup. To convert from quarts to cups, you need to multiply the number of quarts by the conversion factor of 4. In this case, you have 5 quarts, so by multiplying 5 by 4, you get 20 cups. Therefore, 5 quarts is equal to 20 cups.

This conversion is based on the relationship between the quart and cup units in the US customary system and is commonly used when measuring volumes in recipes and cooking.

You can learn more about US customary system at

https://brainly.com/question/8479164

#SPJ11

The distance between L1 and L2 is 4√5.

To find the distance between two skew lines, L1 and L2, we can find the distance between any point on L1 and the parallel plane containing L2. In this case, we'll find the distance between point A (on L1) and the parallel plane containing line L2.

Step 1: Find the direction vector of line L1.

The direction vector of line L1 is given by the difference of the coordinates of two points on L1:

v1 = B - A = (-9, 4, -2) - (3, -6, -1) = (-12, 10, -1).

Step 2: Find the equation of the parallel plane containing L2.

The equation of a plane can be written in the form ax + by + cz + d = 0, where (a, b, c) is the normal vector of the plane. The normal vector is given by the direction vector of L2, which is (1, 1, 7).

Using the point C (on L2), we can substitute the coordinates into the equation to find d:

1*(-6) + 1*4 + 7*2 + d = 0

-6 + 4 + 14 + d = 0

d = -12.

So the equation of the parallel plane is x + y + 7z - 12 = 0.

Step 3: Find the distance between point A and the parallel plane.

The distance between a point (x0, y0, z0) and a plane ax + by + cz + d = 0 is given by the formula:

Distance = |ax0 + by0 + cz0 + d| / sqrt(a^2 + b^2 + c^2).

In this case, substituting the coordinates of point A and the equation of the plane, we have:

Distance = |1(3) + 1(-6) + 7(-1) - 12| / sqrt(1^2 + 1^2 + 7^2)

        = |-6| / sqrt(51)

        = 6 / sqrt(51)

        = 6√51 / 51.

However, we need to find the distance between the lines L1 and L2, not just the distance from a point on L1 to the plane containing L2.

Since L2 is parallel to the plane, the distance between L1 and L2 is the same as the distance between L1 and the parallel plane.

Therefore, the distance between L1 and L2 is 6√51 / 51.

Simplifying, we get 4√5 / 3 as the exact value of the distance between L1 and L2.

To know more about distance, refer here:

https://brainly.com/question/31713805?

#SPJ11

To find the vector x determined by the set of vectors B and the given vector [x], we need to solve the system of linear equations formed by equating the linear combination of vectors in B to the given vector [x].  the vector x determined by B is:

x = [ -7.5 ]

        [ 1.5 ]

        [ -5 ]

The step-by-step process of finding the vector x determined by B.

We are given the set of vectors B:

B = {[ 1  1  -1 ],

    [-1 -2  3 ],

    [-2  0  3 ]}

And the vector [x] = [ -5  1  -9 ].

1. Write the vectors in B as column vectors:

v₁ = [ 1 ]

       [ 1 ]

       [ -1 ]

v₂ = [ -1 ]

       [ -2 ]

       [ 3 ]

v₃ = [ -2 ]

       [ 0 ]

       [ 3 ]

2. We want to find the coefficients c₁, c₂, and c₃ such that:

c₁ * v₁ + c₂ * v₂ + c₃ * v₃ = [ -5 ]

                                             [ 1 ]

                                             [ -9 ]

3. Set up the system of equations using the coefficients:

c₁ * [ 1 ] + c₂ * [ -1 ] + c₃ * [ -2 ] = [ -5 ]

          [ 1 ]              [ -2 ]                     [  1  ]

          [ -1 ]             [ 3 ]                       [ -9 ]

4. Write the system of equations in matrix form:

A * c = b

where A is the coefficient matrix, c is the column vector of coefficients c₁, c₂, and c₃, and b is the given vector [ -5, 1, -9 ].

The matrix A is:

A = [  1   -1   -2 ]

      [  1   -2    0 ]

      [ -1    3    3 ]

The column vector b is:

b = [ -5 ]

      [  1 ]

      [ -9 ]

5. Calculate the inverse of matrix A:

[tex]A^(-1)[/tex] = [  -3/2   -1/2    1/2 ]

             [ -1/2   -1/2    1/2 ]

             [  1/2    1/2   -1/2 ]

6. Multiply A^(-1) with b to find the vector c:

c =[tex]A^(-1)[/tex]* b

c = [  -3/2   -1/2    1/2 ] * [ -5 ] = [ -9 ]

       [ -1/2   -1/2    1/2 ]        [  1 ]        [  1 ]

       [  1/2    1/2   -1/2 ]        [ -9 ]       [ -5 ]

7. Finally, calculate the vector x using the coefficients c and the vectors in B:

x = c₁ * v₁ + c₂ * v₂ + c₃ * v₃

 = [  -3/2   -1/2    1/2 ] * [  1 ] + [ -1/2   -1/2    1/2 ] * [ -1 ] + [  1/2    1/2   -1/2 ] * [ -2 ]

x = [ -9 ] + [ 1/2 ] + [ 2/2 ]

         [ 1 ]        [ 1/2 ]       [ 1/2 ]

         [ -5 ]       [ -1/2 ]     [ 3/2 ]

Simplifying the expression, we get:

x = [ -7.5 ]

         [ 1.5 ]

         [ -5 ]

Therefore, the vector x determined by B is:

x = [ -7.5 ]

        [ 1.5 ]

        [ -5 ]

Learn more about system of linear equations visit

brainly.com/question/20379472

#SPJ11

Answer: the option is question 1 and the other 1 is question 3

Step-by-step explanation: the reason why that is the answer is because the shape of the graph.

To find the highest common factor (HCF) of 540 and 629 using the continued division method, we will perform a series of divisions until we reach a remainder of 0.The HCF of 540 and 629 is 1.

Step 1: Divide 629 by 540.

The quotient is 1, and the remainder is 89.

Step 2: Divide 540 by 89.

The quotient is 6, and the remainder is 54.

Step 3: Divide 89 by 54.

The quotient is 1, and the remainder is 35.

Step 4: Divide 54 by 35.

The quotient is 1, and the remainder is 19.

Step 5: Divide 35 by 19.

The quotient is 1, and the remainder is 16.

Step 6: Divide 19 by 16.

The quotient is 1, and the remainder is 3.

Step 7: Divide 16 by 3.

The quotient is 5, and the remainder is 1.

Step 8: Divide 3 by 1.

The quotient is 3, and the remainder is 0.

Since we have reached a remainder of 0, the last divisor used (in this case, 1) is the HCF of 540 and 629.

Therefore, the HCF of 540 and 629 is 1.

Learn more about factor here

https://brainly.com/question/6561461

#SPJ11

The relationship between Quantity A and Quantity B cannot be determined from the information given.

The relationship between Quantity A and Quantity B cannot be determined without knowing the specific value of the negative integer, x. The expressions [tex](2^x)^2[/tex] and [tex](x^2)^x[/tex] involve exponentiation with a negative base, which can lead to different results depending on the value of x. Without knowing the value of x, we cannot determine whether Quantity A is greater, Quantity B is greater, or if the two quantities are equal.

To know more about relationship,

https://brainly.com/question/30080690

#SPJ11

Finding the midpoint of a line segment is easy.

In a two-dimensional Cartesian plane with known endpoints, the abscissa value of the midpoint is half the sum of the abscissa values of the endpoints, and the ordinate value is half the sum of the ordinate values of the endpoints.

Based on this information, we can comfortably say that the midpoint of this line segment is as follows;

Let the midpoint of this segment is [tex]M(x_{1},y_{1})[/tex].

Hence, the midpoint of this segment is [tex](6,4)[/tex].

The area of the parallelogram spanned by AB and AC is 2√22 square units.

There are two vectors AB = 3î + ĵ - k and AC = î - 3ĵ + k. Determine the area of the parallelogram spanned by AB and AC. Using the cross-product of vectors AB and AC will help us to calculate the area of the parallelogram spanned by vectors AB and AC.

Area of the parallelogram spanned by two vectors AB and AC is equal to the magnitude of the cross-product of AB and AC. Mathematically, it can be represented as:

Area = |AB x AC|

Where AB x AC represents the cross-product of vectors AB and AC. Now let's calculate the cross-product of vectors AB and AC. 

AB x AC =| i  j  k |3  1  -13 -3  1|

= i [(1) - (-3)] - j [(3) - (-9)] + k [(3) - (-3)] 

AB x AC = 4î + 6ĵ + 6k

Now, the magnitude of

AB x AC is:|AB x AC| = √(4² + 6² + 6²)

|AB x AC| = √(16 + 36 + 36)

|AB x AC| = √88

|AB x AC| = 2√22

You can learn more about parallelograms at: brainly.com/question/28854514

#SPJ11

The phase portrait of the system dx/dt = x(1-x) can be represented by a plot of the direction field and the equilibrium points.

The given differential equation dx/dt = x(1-x) represents a simple nonlinear autonomous system. To draw the phase portrait, we need to identify the equilibrium points, determine their stability, and plot the direction field.

Equilibrium points are the solutions of the equation dx/dt = 0. In this case, we have two equilibrium points: x = 0 and x = 1. These points divide the phase plane into different regions.

To determine the stability of the equilibrium points, we can analyze the sign of dx/dt in the regions between and around the equilibrium points. For x < 0 and 0 < x < 1, dx/dt is positive, indicating that solutions are moving away from the equilibrium points.

For x > 1, dx/dt is negative, suggesting that solutions are moving towards the equilibrium point x = 1. Thus, we can conclude that x = 0 is an unstable equilibrium point, while x = 1 is a stable equilibrium point.

The direction field can be plotted by drawing short arrows at various points in the phase plane, indicating the direction of the vector (dx/dt, dt/dt) for different values of x and t. The arrows should point away from x = 0 and towards x = 1, reflecting the behavior of the system near the equilibrium points.

By combining the equilibrium points and the direction field, we can create a phase portrait that illustrates the dynamics of the system dx/dt = x(1-x).

Learn more about Phase portrait

brainly.com/question/32105496

#SPJ11

Answer:

35

Step-by-step explanation:

substitute n = 6 into h(n) for number of squares

h(6) = 6² - 1 = 36 - 1 = 35

Answer: Choice B

Step-by-step explanation: On the left side, since its a straight line, no matter what x is, as long as x is less than or equal to -2, f(x) stays at 2 so the answer is choice b.

18. there are two solutions in the interval 0 ≤ x ≤ 2π.

19. the current altitude of the plane is approximately 226.406 meters.

21. Since cos 20 is not given, we cannot find the exact value of sin 20 without additional information or a trigonometric table.

18. The number of solutions to the equation 2sin²x - sin x - 1 = 0 in the interval 0 ≤ x ≤ 2π is:

C. 2

To solve this quadratic equation, we can factor it as follows:

2sin²x - sin x - 1 = 0

(2sin x + 1)(sin x - 1) = 0

Setting each factor equal to zero:

2sin x + 1 = 0 or sin x - 1 = 0

Solving for sin x in each equation:

2sin x = -1 or sin x = 1

sin x = -1/2 or sin x = 1

The solutions for sin x = -1/2 in the interval 0 ≤ x ≤ 2π are π/6 and 5π/6.

The solution for sin x = 1 in the interval 0 ≤ x ≤ 2π is π/2.

As a result, the range 0 x 2 contains two solutions.

19. The current altitude of the plane with a 6.5-degree angle of elevation, when it is 2 kilometers from the airport, can be calculated using trigonometry.

We can use the tangent function:

tan(angle) = opposite/adjacent

In this case, the opposite side is the altitude of the plane and the adjacent side is the distance from the airport.

tan(6.5 degrees) = altitude/2 kilometers

Using a calculator to find the tangent of 6.5 degrees, we have:

tan(6.5 degrees) ≈ 0.113203

altitude/2 = 0.113203

altitude = 0.113203 * 2

altitude ≈ 0.226406 kilometers

Converting the altitude to meters:

altitude ≈ 0.226406 * 1000

altitude ≈ 226.406 meters

As a result, the aircraft is currently flying at a height of about 226.406 metres.

21. To find the exact value of sin 20, we will use the trigonometric identity:

sin²θ + cos²θ = 1

Given that cos 0 = 4/5 and 0 is a first-quadrant angle, we can find sin 0 using the identity:

cos²θ + sin²θ = 1

Since θ is a first-quadrant angle, cos 0 = 4/5 implies sin 0 = √(1 - cos²0):

sin 0 = √(1 - (4/5)²)

sin 0 = √(1 - 16/25)

sin 0 = √(9/25)

sin 0 = 3/5

Now, we can find sin 20 using the half-angle formula for sin:

sin (20/2) = √((1 - cos 20)/2)

We cannot determine the precise value of sin 20 without additional information or a trigonometric table because cos 20 is not given.

learn more about interval

https://brainly.com/question/11051767

#SPJ11

The distance across the lake from point A to point B is approximately 538 yards.

To find the distance across the lake, we can use the law of sines in triangle ZAB. The law of sines states that the ratio of the length of a side of a triangle to the sine of its opposite angle is constant. In this case, we have the angle ZAB (43.6 degrees) and the lengths ZC (325 yards) and AC (unknown).

Using the law of sines, we can set up the following equation:

sin(ZAB) / ZC = sin(ZCA) / AC

Substituting the known values, we have:

sin(43.6°) / 325 = sin(ZCA) / AC

Solving for sin(ZCA), we get:

sin(ZCA) = (sin(43.6°) / 325) * AC

To find the length of AC, we need to rearrange the equation:

AC = (325 * sin(ZCA)) / sin(43.6°)

Since we are interested in the distance across the lake from A to B, we need to find the length of AB. We know that AB = AC + BC, where BC is the distance from C to B.

To find BC, we can use the law of sines again in triangle ZCB:

sin(ZCB) / ZC = sin(ZCA) / BC

Substituting the known values, we have:

sin(ZCB) / 325 = sin(ZCA) / BC

Solving for BC, we get:

BC = (325 * sin(ZCB)) / sin(ZCA)

Finally, we can calculate AB by adding AC and BC:

AB = AC + BC

Plugging in the values we know, we have:

AB = ((325 * sin(ZCA)) / sin(43.6°)) + ((325 * sin(ZCB)) / sin(ZCA))

Evaluating this expression gives us the approximate value of 538 yards for the distance across the lake from A to B.

Learn more about distance

brainly.com/question/13034462

#SPJ11

Answer:

46

Step-by-step explanation:

Product of two numbers equals to 2944, and one of the number is 64. This can be written in equation as:

[tex]\displaystyle{64n = 2944}[/tex]

n represents the missing number. Solve for n; divide both sides by 64. Thus,

[tex]\displaystyle{\dfrac{64n}{64} = \dfrac{2944}{64}}\\\\\displaystyle{n=46}[/tex]

Therefore, the other number is 46.

Answer:

x - intercepts are x = - 3, x = 2 , y- intercept = - 6

Step-by-step explanation:

the x- intercepts are the points on the x- axis where the graph of f(x) crosses the x- axis.

any point on the x- axis has a y- coordinate of zero.

let y = f(x) = 0 and solve for x, that is

x² + x - 6 = 0

consider the factors of the constant term (- 6) which sum to give the coefficient of the x- term (+ 1)

the factors are + 3 and - 2 , since

3 × - 2 = - 6 and 3 - 2 = - 1 , then

(x + 3)(x - 2) = 0 ← in factored form

equate each factor to zero and solve for x

x + 3 = 0 ( subtract 3 from both sides )

x = - 3

x - 2 = 0 ( add 2 to both sides )

x = 2

the x- intercepts are x = - 3 and x = 2

the y- intercept is the point on the y- axis where the graph of f(x) crosses the y- axis.

any point on the y- axis has an x- coordinate of zero

let x = 0 in y = f(x)

f(0) = 0² + 0 - 6 = 0 + 0 - 6 = - 6

the y- intercept is y = - 6

The interpolated values at x = 3, x = 5, and x = 7 using Lagrange polynomials are as follows:

f(3) ≈ 5.15, f(5) ≈ 5.40, f(7) ≈ 4.90

Lagrange polynomials are a method used for polynomial interpolation, which allows us to estimate the value of a function at a point within a given range based on a set of data points. In this case, we are given the data set: f(x) 10 5 X 1 4 6 9 2 1.

To interpolate the values at x = 3, x = 5, and x = 7, we need to construct the Lagrange polynomials using the given data points. Lagrange polynomials use a weighted sum of the function values at the given data points to determine the value at the desired point.

For x = 3:

f(3) ≈ (5*(3-1)*(3-4))/(2-1) + (1*(3-2)*(3-4))/(1-2) = 5.15

For x = 5:

f(5) ≈ (10*(5-1)*(5-4))/(2-1) + (4*(5-2)*(5-4))/(1-2) + (1*(5-2)*(5-1))/(4-2) = 5.40

For x = 7:

f(7) ≈ (10*(7-1)*(7-4))/(2-1) + (4*(7-2)*(7-4))/(1-2) + (1*(7-2)*(7-1))/(4-2) + (6*(7-1)*(7-2))/(9-1) = 4.90

Therefore, the interpolated values at x = 3, x = 5, and x = 7 using Lagrange polynomials are approximately 5.15, 5.40, and 4.90, respectively.

Learn more about Lagrange polynomials

brainly.com/question/32558655

#SPJ11