If you could please help me with these I would be very grateful **Question 3**Use the image in Question 1. You may also refer to the Lab 10 document or your own lab manual if you have it.What is the distance ion y (\(d_y\)) traveled? Report the value only using one decimal place. Your answer should have the units cm.[Input Box]---**Question 4**Use the image in Question 1. You may also refer to the Lab 10 document or your own lab manual if you have it.What is the distance ion z (\(d_z\)) traveled? Report the value only using one decimal place. Your answer should have the units cm.[Input Box]---**Question 5**What is the retention factor for ion x, \(R_F(x)\)?[Input Box]---**Question 6**What is the retention factor for ion y, \(R_F(y)\)?[Input Box]---**Question 7**What is the retention factor for ion z, \(R_F(z)\)?[Input Box]---*There are no graphs or diagrams present in the image to describe.* **QUESTION 1**Use the image below for questions 1-4 on Lab 10 Pre-Lab Exercise. You may also refer to the Lab 10 document or your own lab manual if you have it. What is the distance the solvent front (\(D_s\)) traveled? Report the value only using one decimal place. The answer you enter should be expressed in the unit cm.![Chromatography Diagram](image_link_placeholder)**Diagram Explanation:**The diagram shows a chromatography setup with a vertical rectangular strip. There is a graduated ruler on the right with measurements in centimeters. At the bottom of the strip, there is a pencil line labeled “x, y, z” where three spots are applied.- The “Leading edge of solvent” is marked as the top line indicating where the solvent front (\(D_s\)) has traveled, reaching approximately the 7.9 cm mark on the ruler. - \(D_s\) is labeled as the distance from the pencil line to the leading edge of the solvent. - Distance \(d_x\) is shown as the distance from the pencil line to where substance 'x' has traveled, reaching approximately the 4.2 cm mark on the ruler.**QUESTION 2**Use the image in Question 1. You may also refer to the Lab 10 document or your own lab manual if you have it. What is the distance ion x (\(d_x\)) traveled? Report the value only using one decimal place. Your answer should have the units cm.

In Thin Layer Chromatography strategy, Retention variable or say Rf esteem is the proportion of distance covered by the compound as for solvent system. That is, Retention factor esteem is given by the formula, Rf value =(distance covered by compound)( distance covered as the dissolvable front ) Where, Solvent front is the line to which versatile period of the framework has risen. That is, it is the greatest distance covered by the dissolvable arrangement of the Thin Layer Chromatography. In this manner, presently addressing the individual inquiries from the offered viewpoint of Thin Layer Chromatography.(1) Distance covered by the dissolvable front is equivalent to distance of the main edge of dissolvable from that of the pencil line. That is, Distance covered by the solvent front, Ds = 6.7 cm (2) Distance particle x made a trip is equivalent to the distance of the spot x from that of the pencil line. That is, Distance went by particle x , dx = 3.2 cm (3) Distance particle y headed out is equivalent to the distance of the spot y from that of the pencil line. That is, Distance went by particle y , dy = 5.3 cm (4) Distance particle z headed out is equivalent to the distance of the spot z from that of the pencil line. That is, Distance went by particle z , dz = 1.8 cm (5) Presently, to decide the maintenance component of particle x, we have talked about the connection above : Rf value= (distance covered by compound)( distance covered as the dissolvable front ) For which, we have Distance went by particle x , d = 3.2 cm Distance covered by the dissolvable front, D = 6.7 cm Thusly, on placing these qualities in the previously mentioned recipe, Rf an incentive for particle x will be found as: Rf value= (distance covered by particle x )(distance covered as the solvent front ) That is, Rf value= 3.2 cm6.7 cm Rf value= 0.48 Consequently, in view of the given scale Retention component of particle x is found as 0.48 (6) Additionally, for particle Y We have the information : Distance went by particle y , dy = 5.3 cm Distance covered by the dissolvable front, Ds = 6.7 cm Consequently, on placing these qualities in the previously mentioned equation, Rf an incentive for particle y will be found as: Rf value = (distance covered by particle y )(distance covered as the solvent front ) That is, Rf value =5.3 cm 6.7 cm Rf value = 0.79 Subsequently, in light of the given scale Retention component of particle y is found as 0.79 .(7) Also, for particle z We have the information : Distance went by particle z , dz = 1.8 cm Distance covered by the dissolvable front, Ds = 6.7 cm Consequently, on placing these qualities in the previously mentioned equation, Rf an incentive for particle z will be found as: Rf value = (distance covered by particle z )(distance covered as the solvent front ) That is, Rf value = 1.8 cm6.7 cm Rf esteem = 0.27 Subsequently, in view of the given scale Retention variable of particle z is found as 0.27 .