Because the image is congruent to the original figure, then it undergoes a congruent transformation which can be a reflection, a rotation, or a translation. So, the answer is D.

Question

asked 2021-02-03

Lily wants to define a transformation (or series of transformations) using only rotations, reflections or translations that takes Figure A to Figure B.

Which statement about the transformation that Lily wants to define is true?

A. It can be defined with two reflections.

B.It can be defined with one rotation and one translation.

C. It cannot be defined because Figure A and Figure B are not congruent.

D.It cannot be defined because the longest side of Figure B is on the bottom.

Which statement about the transformation that Lily wants to define is true?

A. It can be defined with two reflections.

B.It can be defined with one rotation and one translation.

C. It cannot be defined because Figure A and Figure B are not congruent.

D.It cannot be defined because the longest side of Figure B is on the bottom.

asked 2021-02-06

A.Which figure shows the loop that the must beused as the Ampèrean loop for finding for inside the solenoid?

B.Find , the z component of the magnetic field insidethe solenoid where Ampère's law applies. Express your answer in terms of,,,,and physical constants such as .

C.The magnetic field inside a solenoidcan be found exactly using Ampère's law only if thesolenoid is infinitely long. Otherwise, the Biot-Savart law must beused to find an exact answer. In practice, the field can bedetermined with very little error by using Ampère's law, aslong as certain conditions hold that make the field similar to thatin an infinitely long solenoid. Which of the following conditions musthold to allow you to use Ampère's law to find a goodapproximation?

Consider only locations where the distance from the ends ismany times . Consider any location inside the solenoid, as long asis much larger than for the solenoid. Consider only locations along the axis of the solenoid. Answer?

Show transcribed image text A. Which figure shows the loop that the must beused as the Amp?rean loop for finding B_z(r) for r inside the solenoid? B. Find B_z(r), the z component of the magnetic field insidethe solenoid where Amp?re's law applies. Express your answer in terms ofL,D,n,I,and physical constants such as mu_0. C. The magnetic field inside a solenoidcan be found exactly using Amp?re's law only if thesolenoid is infinitely long. Otherwise, the Biot - Savart law must beused to find an exact answer. In practice, the field can bedetermined with very little error by using Amp?re's law, aslong as certain conditions hold that make the field similar to thatin an infinitely long solenoid. Which of the following conditions musthold to allow you to use Amp?re's law to find a goodapproximation? Consider only locations where the distance from the ends ismany times D. Consider any location inside the solenoid, as long asLis much larger than Dfor the solenoid. Consider only locations along the axis of the solenoid.

B.Find , the z component of the magnetic field insidethe solenoid where Ampère's law applies. Express your answer in terms of,,,,and physical constants such as .

C.The magnetic field inside a solenoidcan be found exactly using Ampère's law only if thesolenoid is infinitely long. Otherwise, the Biot-Savart law must beused to find an exact answer. In practice, the field can bedetermined with very little error by using Ampère's law, aslong as certain conditions hold that make the field similar to thatin an infinitely long solenoid. Which of the following conditions musthold to allow you to use Ampère's law to find a goodapproximation?

Consider only locations where the distance from the ends ismany times . Consider any location inside the solenoid, as long asis much larger than for the solenoid. Consider only locations along the axis of the solenoid. Answer?

Show transcribed image text A. Which figure shows the loop that the must beused as the Amp?rean loop for finding B_z(r) for r inside the solenoid? B. Find B_z(r), the z component of the magnetic field insidethe solenoid where Amp?re's law applies. Express your answer in terms ofL,D,n,I,and physical constants such as mu_0. C. The magnetic field inside a solenoidcan be found exactly using Amp?re's law only if thesolenoid is infinitely long. Otherwise, the Biot - Savart law must beused to find an exact answer. In practice, the field can bedetermined with very little error by using Amp?re's law, aslong as certain conditions hold that make the field similar to thatin an infinitely long solenoid. Which of the following conditions musthold to allow you to use Amp?re's law to find a goodapproximation? Consider only locations where the distance from the ends ismany times D. Consider any location inside the solenoid, as long asLis much larger than Dfor the solenoid. Consider only locations along the axis of the solenoid.

asked 2021-01-06

Select the best answer. Which of the
following random variables is
geometric?

(a) The number of times I have to roll a die to get two 6s.

(b) The number of cards I deal from a well-shuffled deck of 52 cards until I get a heart.

(c) The number of digits I read in a randomly selected row of the random digits table until I find a 7.

(d) The number of 7s in a row of 40 random digits.

(e) The number of 6s I get if I roll a die 10 times.

(a) The number of times I have to roll a die to get two 6s.

(b) The number of cards I deal from a well-shuffled deck of 52 cards until I get a heart.

(c) The number of digits I read in a randomly selected row of the random digits table until I find a 7.

(d) The number of 7s in a row of 40 random digits.

(e) The number of 6s I get if I roll a die 10 times.

asked 2020-10-27

Draw a graph for the original figure and its dilated image. Check whether the dilation is a similarity transformation or not.

Given:

The given vertices are

original \(\displaystyle\rightarrow{A}{\left({2},{3}\right)},{B}{\left({0},{1}\right)},{C}{\left({3},{0}\right)}\)

image \(\displaystyle\rightarrow{D}{\left({4},{6}\right)},{F}{\left({0},{2}\right)},{G}{\left({6},{0}\right)}\)

Given:

The given vertices are

original \(\displaystyle\rightarrow{A}{\left({2},{3}\right)},{B}{\left({0},{1}\right)},{C}{\left({3},{0}\right)}\)

image \(\displaystyle\rightarrow{D}{\left({4},{6}\right)},{F}{\left({0},{2}\right)},{G}{\left({6},{0}\right)}\)

asked 2020-11-30

The spinner is spun twice. Two possible outcomes art AC and CA.

a. Create a sample space that lists all of the equally likely outcomes.

b. Refer to the sample space to find the probability of spinning A one or more times in two spins.

a. Create a sample space that lists all of the equally likely outcomes.

b. Refer to the sample space to find the probability of spinning A one or more times in two spins.

asked 2020-11-22

Answer true or false to each of the following statements and explain your answers.

a. In using the method of transformations, we should only transform the predictor variable to straighten a scatterplot.

b. In using the method of transformations, a transformation of the predictor variable will change the conditional distribution of the response variable.

c. It is not always possible to fnd a power transformation of the response variable or the predictor variable (or both) that will straighten the scatterplot.

a. In using the method of transformations, we should only transform the predictor variable to straighten a scatterplot.

b. In using the method of transformations, a transformation of the predictor variable will change the conditional distribution of the response variable.

c. It is not always possible to fnd a power transformation of the response variable or the predictor variable (or both) that will straighten the scatterplot.

asked 2021-01-24

If you used a random number generator for the numbers from 1 through 20 to play a game, what is the theoretical probability of getting each of these outcomes? a. A multiple of 3 or a multiple of 7, P(multiple of 3 or multiple of 7) b. P( even or odd) c. P(prime or 1) d. How did you find the probabilities of these events?

asked 2021-01-28

Data is being processed from 35 data sources. Each dataset may or may or net generate dataset at the beginning of each timeslot, the probability that any individual source actually generates a dataset is 0.004,and the data sources are independent. In each time slot we can process up to two datasets. Now, the processing is real time with the processed results only being considered if they are done within the time slot. Determine the probability that all incoming datasets can be processed in any particular time slot?

asked 2021-02-13

Draw a graph for the original figure and its dilated image. Check whether the dilation is a similarity transformation or not.

Given:

The given vertices are

J(-6,8),K(6,6),L(-2,4),D(-12,16),G(12,12),H(-4,8)

Given:

The given vertices are

J(-6,8),K(6,6),L(-2,4),D(-12,16),G(12,12),H(-4,8)

asked 2021-02-02

Suppose the vertices of the original figure in the example were A(-6,6), B(-2,5), and C(-6,2). What would be the vertices of the image after a 90° clockwise rotation about the origin?

A'()

B'()

C'(___)

A'()

B'()

C'(___)