A magnetic resonance imaging, or MRI, machine is used to get detailed images of parts of the human body that may be too sensitive or difficult to X-ray. A strong magnetic field interacts with elements, such as hydrogen, found predominantly in water in the body. When exposed to the magnetic field, the hydrogen atoms align with the magnetic field. A radio wave is then emitted through the body. This electromagnetic wave interacts with the hydrogen atoms. When the radio wave is shut off, the atoms release electromagnetic waves. Studying the waves that are emitted can reveal different abnormalities in the human body. A student in a physician’s lab is studying the MRI machine. First, an oscilloscope is used to construct a graph of the electric field versus time as the radio wave is sent through the body, as shown. Image shows a line graph with a curved sine wave on a grid. The graph is titled “Graph A: Radio Waves Emitted”.Image shows a line graph with a curved sine wave on a grid. The graph is titled 'Graph A: Radio Waves Emitted' The y-axis is labeled 'Displacement (cm)' and has a label at -0.5, 0, and 0.5. There are four grid marks between -0.5 and 0, as well as between 0 and 0.5, that are not labeled. The x-axis is labeled 't (s)' and has a label at 0, 0.5 and 1. There are four grid lines between each label. The plot is as follows: x y -0.4 -1 0 0 0.1 0.4 0.2 0.0 0.3 -0.4 0.39 0.0 0.49 0.4 0.58 0.0 0.68 -0.4 0.78 0.0 0.88 0.4 0.97 0.0 There are 5 labels on the graph.Label A coordinates: x y 0.0 0.0 Label B coordinates: x y 0.2 0.0 Label C coordinates: x y 0.3 -0.4 Label D coordinates: x y 0.58 0.0 Label E coordinates: x y 0.78 0.0 Label F coordinates: x y 0.88 0.4 Based on the graph, drag the correct values and/or letters to complete the sentences. 0.4B1.5AC2.5 The amount of time to complete one wave cycle is s, and one cycle is represented by the points between the letter and the letter D. If the wavelength is measured to be 0.6 m, the speed of the wave is m/s.