The y-intercept of a graph represents the value of the dependent variable when the independent variable is equal to zero. In this case, the y-intercept of the graph represents the remaining time of the movie when Kelly hits play.
To determine the y-intercept, we need to examine the point where the graph intersects the y-axis. At this point, the amount of time since Kelly hit play is zero. Therefore, the y-intercept gives us the remaining time of the movie at the start.
Without specific information about the graph or any numerical values, it is not possible to determine the exact y-intercept or its representation in this context. The y-intercept could represent different things depending on how the graph is defined and what units are used for time and remaining movie duration.
For example, if the remaining time of a movie is measured in minutes and the x-axis represents seconds since Kelly hit play, then the y-intercept would represent the total duration of the movie in minutes. On the other hand, if the remaining time is measured in hours and the x-axis represents minutes since Kelly hit play, then the y-intercept would represent the total duration of the movie in hours.
In summary, without specific information about the graph and its units, it is not possible to determine the exact y-intercept or its representation. The y-intercept represents the value of the dependent variable (remaining time) when the independent variable (time since Kelly hit play) is equal to