Task 8 Write a Cylinder class to get the desired output as shown below. 1. You will have to create a Cylinder class. 2. You will have to create 2 class variables. 3. Create a required constructor. 4. Write 2 class methods: One that takes the height first and then the radius and then swaps One that takes a string where the radius and height values are separated with a hyphen. Write 2 static methods: One that calculates the area of a whole cylinder (formula: 2Tr? + 2Trh) Another that calculates the volume of a cylinder (formula: Th) **Observe the output values carefully to understand how the radius and height values are changing. [You are not allowed to change the code below] Vrite your code here = Cylinder(0,0) Hinder.area(c1.radius,c1.height) linder.volume(c1.radius,c1.height) nt("= Output: Default radius=5 and height=18. Updated: radius=0 and height=0. Area: 0.0 Volume: 0.0 =") ==== Dofoult rodius- O and beight-0

Please follow the instructions and do it in python3.  Thanks 

Transcribed Image Text:

Task 8 Write a Cylinder class to get the desired output as shown below. 1. You will have to create a Cylinder class. 2. You will have to create 2 class variables. 3. Create a required constructor. 4. Write 2 class methods: One that takes the height first and then the radius and then swaps One that takes a string where the radius and height values are separated with a hyphen. Write 2 static methods: One that calculates the area of a whole cylinder (formula: 2T² + 2Trh) Another that calculates the volume of a cylinder (formula: TPh) **Observe the output values carefully to understand how the radius and height values are changing. [You are not allowed to change the code below] # Write your code here Output: Default radius=5 and height=18. Updated: radius=0 and height=0. Area: 0.0 c1 = Cylinder(0,0) Cylinder.area(c1.radius,c1.height) Cylinder.volume(c1.radius,c1.height) print("= c2 = Cylinder.swap(8,3) c2.area(c2.radius,c2.height) c2.volume(c2.radius,c2.height) print("= c3 = Cylinder.changeFormat("7-13") c3.area(c3.radius,c3.height) c3.volume(c3.radius,c3.height) print("= Cylinder(0.3,5.56).area(Cylinder.radius,Cylinder.height) Default radius=7.0 and height=13.0. print("== Cylinder(3,5).volume(Cylinder.radius,Cylinder.height)) Volume: 0.0 ") Default radius=0 and height=0. Updated: radius=3 and height=8. Area: 207.34511513692635 Volume: 226.1946710584651 =") ===== ======: Default radius=3 and height=8. Updated: radius=7.0 and height=13.0. Area: 879.645943005142 Volume: 2001.1945203366981 =") ======") Updated: radius=0.3 and height=5.56. Area: 11.045839770021713 =========== =========== == Default radius=0.3 and height=5.56. Updated: radius=3 and height=5. Volume: 141.3716694115407