(2 points) Match each graph with its contour plot. You can rotate each graph by clicking...
please answer Part 2. I believe the units should be V/m. thanks! In this contour plot you can see lines of equal potential. The lines are labeled with their potential values in units of Volts. These potential lines are generated by a collection of point charges. Part 1: What is the minimum number of point charges that are needed to generate a potential surface like the one shown here? 3 You are correct. Your receipt no. is 150-4824 Part 2:...
1 point) Match the functions below with their level surfaces at height 3 in the table at the right. 1. f(x,y,z) 22 3x 2.f(x,y,z) 2y +3x 3. f(x, y,z) 2y +3z -2 (You can drag the images to rotate them.) Enable Java to make this image Enable Java to make this image interactive] Enable Java to make this image Enable Java to make this image Enable Java to make this image Enable Java to make this image interactive] 1 point...
Match each solution (in red) with its initial value problem Entering Answer (10 points) Note: You have only 5 attempts to solve this problem. Match each solution (in red) with its initial value problem. ? 1. ? 42. X = x-17-)«, x0 = (?) x= [ ]] x xo) = [] x=[7-) * xo = [2] x= [ { }] + x =[0] ? 3. x' = 1 ? 4. x' = A B с D
Using Aplia graphs Some questions will ask you to interpret a given graph, and others will require you to manipulate the objects on the graph or even add new required objects. Each manipulable object will be shown in the area to the right of the graph (the palette) and referred to by its color, object type, and shape of the control points, for example, black point (plus symbol). To place an object on the graph, select it from the palette...
Answer all of these, please Using Aplia graphs me questions will ask you to interpret a given oraph, and others will require you to manipulate the objects on the graph or even add new required objects,. Each manipulable oblect will be shown in the area to the right of the praph (the palette) and referred to by ts color, object type, and shape of the control points, for example, black point (plus symbol). To place an object on the graph,...
Working with lines As with individual points, the control points that define a line can be placed only on the snap points of the graph. Often (though not always), snap points coincide with the intersection of grid lines. You are graded on the position of the line itself, not the position of the control points along the line. On the following graph, place the green line (triangle symbol) directly on top of the upward-sioping line you are given. Hint: Make...
where do these two points meet when you graph them each, and what can you conclde about them Math 1040 section 8.5 Assignment 2 1. For each rental plan, represent the relationship between the number of miles (from 20 to 45) and the cost. Use a linear function, a table of ordered pairs, and graph. What conclusion can you draw about these plans? Rental P al Plan Car Ren Car Renta 515 per day plus 5.25 per mile 58 per...
Here is a graph that shows not just the number of sunspots over time, but where on the Sun they have appeared. It has been nicknamed the "butterfly diagram" due to the characteristic shapes you see in it Let's take a closer look at it - I have blown up the most recent part, and added some helpful guide lines E> 0.0% > 0.1% > 1.0% 90° N 60° N 500 N 40° N 300 N 200 N 100 N...
Answer the questions using the data and graph. please show all work. Thank you Titration of Hydrochloric Acid: 1) Use the buret that is located near the hydrochloric acid container to dispense 25.00 mL of hydrochloric acid solution into a clean dry 100 mL beaker. Record the molarity of this solution on your data sheet. 2) Check to make sure that the volume on your sodium hydroxide buret reads 0.00 mL. If it does not read 0.00 mL, adjust it...
Section 1 Tube [FeSCN^+] M Absorbance 1 0.0005 0.016 2 0.0011 0.0422 3 0.00367 0.0917 4 0.00727 0.224 5 0.00965 0.267 6 0.0137 0.398 Part B unknown sol. 0.175 SCENARIO: Five standard solutions containing different known concentrations of an iron (II) thiocyanate (FeSCN+ ) complex are analyzed using spectrophotometry, a technique which measures the quantity of light absorbed by the solution as a function of the concentration of the analyte in solution (in this case, FeSCN+ ). The results of...