diff --git a/wav_convert.m b/wav_convert.m
new file mode 100644
index 0000000..af0096c
--- /dev/null
+++ b/wav_convert.m
@@ -0,0 +1,42 @@
+pkg load signal
+
+file_path = 'signaluk.wav';
+
+[x, Fs] = audioread(file_path);
+
+t = (0:length(x)-1) / Fs;
+
+
+% Assuming you have already loaded the audio signal 'y' and the sampling rate 'Fs'
+
+% Calculate the total duration of the signal in seconds
+total_duration = length(y) / Fs;
+
+% Define the time points for splitting the signal
+start_time_part1 = 1.0; % Start time for the first part (in seconds)
+end_time_part1 = start_time_part1 + 1.0; % End time for the first part (in seconds)
+
+% Find the indices corresponding to the desired time range for part 1
+start_index_part1 = floor(start_time_part1 * Fs) + 1;
+end_index_part1 = floor(end_time_part1 * Fs);
+
+% Split the signal into part 1
+part1_signal = y(start_index_part1:end_index_part1);
+
+% Calculate the time points for part 2
+start_time_part2 = end_time_part1; % Start time for the second part (in seconds)
+end_time_part2 = total_duration; % End time for the second part (in seconds)
+
+% Find the indices corresponding to the desired time range for part 2
+start_index_part2 = floor(start_time_part2 * Fs) + 1;
+end_index_part2 = floor(end_time_part2 * Fs);
+
+% Split the signal into part 2
+part2_signal = y(start_index_part2:end_index_part2);
+
+
+% Save the two parts as separate WAV files
+filename = 'part1.wav';
+audiowrite(char(filename), part1_signal, Fs);
+filename = 'part2.wav';
+audiowrite(char(filename), part2_signal, Fs);