After reducing the Planet Mass to 0.5, we observe the subsequent motions. How are the orbits of the Earth and Moon affected? Summarize observations and explain why.A website for the simulation shown in the image: https://phet.colorado.edu/sims/html/gravity-and-orbits/latest/gravity-and-orbits_en.html **Title: Exploring Gravity and Orbits****Description:**This interactive simulation demonstrates the principles of gravity and orbital mechanics. **Diagram Explanation:**The central part of the simulation displays a star, a planet, and a moon orbiting in space. - **Star**: Depicted at the center, with a circular path indicating its gravitational influence.- **Planet**: Orbits the star, represented by a blue arrow indicating its velocity.- **Moon**: Orbits the planet, shown with an orange arrow for its velocity.**Control Panel:** - Located on the right side, allowing users to adjust various parameters: - **Objects**: Selection of celestial bodies including star and planet combinations. - **Gravity Toggle**: Option to turn gravity on or off. - **Measurements**: - **Gravity Force**: Blue arrow indicates the gravitational pull. - **Velocity**: Orange arrow shows the speed and direction of an object. - **Mass, Path, Grid, Measuring Tape**: Options for displaying additional details. - **Star Mass Slider**: Ranges from 0.5 to 2.0 times our Sun’s mass. - **Planet Mass Slider**: Ranges from 0.5 to 2.0 times Earth’s mass.**Simulation Controls:**- **Play/Pause and Fast Forward**: Allows users to control the flow of the simulation.- **Time Display**: Shows the current time in Earth days.- **Clear**: Resets the simulation to default values.**Interactive Learning:**This tool allows users to visualize and understand the dynamics of celestial bodies and the effect of varying masses and gravitational forces on their orbits.

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Answered: fter reducing the Planet Mass to 0.5,…

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