In pyton

Define a function drawCircle. This function should expect a Turtle object, the coordinates of the circle’s center point, and the circle’s radius as arguments. The function should draw the specified circle. The algorithm should draw the circle’s circumference by turning 3 degrees and moving a given distance 120 times. Calculate the distance moved with the formula 2.0 × π × radius ÷ 120.0.

Define a function main that will draw a circle with the following parameters when the program is run:

• X = 50
• Y = 75
• Radius = 100

The result should look like the image that is indicated below :

Transcribed Image Text:

Certainly! Here's the transcription and detailed explanation of the diagram for an educational context: --- **Title:** Hydrogen-Electron Transfer (Nikola Tesla) **Ohm's Law** Ohm’s Law is the inter-relationship between Voltage, Current, and Resistance in a closed system. They are related by the equation: **E = I * R** Where: - E is Electrical potential or voltage between any 2 points, measured in Volts - I is the Current flow, measured in Amperes - R is the Resistance to current flow, measured in Ohms #### Diagram Explanation: 1. **Hydrogen** - 1.6726231 x 10−27 kg or 1836.15267389 me 2. **Electron** - 9.10938356 x 10−31 kg (me) 3. **Electron-Volt** *(Energy)* - The energy of one electron passing through an electric field with a potential difference of one volt. #### Key Points about the Diagram: The diagram illustrates the concept of hydrogen-electron transfer in the context of Nikola Tesla’s work, focusing on the relationship and interaction between hydrogen atoms and electrons. This involves understanding their individual masses and how they participate in energy transfer processes, specifically in electrical phenomena as described by Ohm's Law. --- This educational content is designed to articulate basic principles of electrical engineering and physics, and to highlight Nikola Tesla's influence on our understanding of these concepts.