If we increase the wavelength of the light used to form a double-slit

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If we increase the wavelength of the light used to form a double-slit diffraction pattern, the width of the central diffraction peak increases and the number of bright fringes within the peak increases. the width of the central diffraction peak increases and the number of bright fringes within the peak stays the same. the width of the central diffraction peak increases and the number of bright fringes within the peak decreases. the width of the central diffraction peak decreases and the number of bright fringes within the peak increases. the width of the central diffraction peak decreases and the number of bright fringes within the peak decreases.

$If we increase the wavelength of the light used to form a double-slit diffraction pattern, the width of the central diffraction peak increases and the number of bright fringes within the peak increases. the width of the central diffraction peak increases and the number of bright fringes within the peak stays the same. the width of the central diffraction peak increases and the number of bright fringes within the peak decreases. the width of the central diffraction peak decreases and the number of bright fringes within the peak increases. the width of the central diffraction peak decreases and the number of bright fringes within the peak decreases.$

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If we increase the wavelength of the light used to form a double-slit diffraction pattern, the width of the central diffraction peak increases and the number of bright fringes within the peak increases. the width of the central diffraction peak increases and the number of bright fringes within the peak stays the same. the width of the central diffraction peak increases and the number of bright fringes within the peak decreases. the width of the central diffraction peak decreases and the number of bright fringes within the peak increases. the width of the central diffraction peak decreases and the number of bright fringes within the peak decreases.

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