diff --git a/bilby/gw/prior_files/aligned_spins_waveform_tides_off.prior b/bilby/gw/prior_files/aligned_spins_waveform_tides_off.prior
new file mode 100644
index 0000000000000000000000000000000000000000..31c3ce00109f4e86e4639d61e0a104ba7922cc89
--- /dev/null
+++ b/bilby/gw/prior_files/aligned_spins_waveform_tides_off.prior
@@ -0,0 +1,12 @@
+chirp_mass = Uniform(name='chirp_mass', minimum=3.56, maximum=3.68)
+mass_ratio = Uniform(name='mass_ratio', minimum=0.05, maximum=1)
+mass_1 = Constraint(name='mass_1', minimum=1.00, maximum=22.0) #optional
+mass_2 = Constraint(name='mass_2', minimum=1.00, maximum=2.95) #optional
+chi_1 = bilby.gw.prior.AlignedSpin(name='chi_1', a_prior=Uniform(minimum=0, maximum=0.5))
+chi_2 = bilby.gw.prior.AlignedSpin(name='chi_2', a_prior=Uniform(minimum=0, maximum=0.05))
+luminosity_distance = bilby.core.prior.PowerLaw(alpha=2, name='luminosity_distance', minimum=1, maximum=750, unit='Mpc')
+ra = Uniform(minimum=0, maximum=2 * np.pi, name='ra',  boundary='periodic')
+dec = Cosine(name='dec')
+cos_theta_jn = Uniform(name='cos_theta_jn', minimum=-1, maximum=1)
+psi = Uniform(name='psi', minimum=0, maximum=np.pi, boundary='periodic')
+phase = Uniform(name='phase', minimum=0, maximum=2 * np.pi, boundary='periodic')
diff --git a/bilby/gw/prior_files/aligned_spins_waveform_tides_on.prior b/bilby/gw/prior_files/aligned_spins_waveform_tides_on.prior
new file mode 100644
index 0000000000000000000000000000000000000000..96cb469b939f242f970aba1b5b8ea761602eee77
--- /dev/null
+++ b/bilby/gw/prior_files/aligned_spins_waveform_tides_on.prior
@@ -0,0 +1,14 @@
+chirp_mass = Uniform(name='chirp_mass', minimum=3.56, maximum=3.68)
+mass_ratio = Uniform(name='mass_ratio', minimum=0.05, maximum=1)
+mass_1 = Constraint(name='mass_1', minimum=1.00, maximum=22.0) #optional
+mass_2 = Constraint(name='mass_2', minimum=1.00, maximum=2.95) #optional
+chi_1 = bilby.gw.prior.AlignedSpin(name='chi_1', a_prior=Uniform(minimum=0, maximum=0.5))
+chi_2 = bilby.gw.prior.AlignedSpin(name='chi_2', a_prior=Uniform(minimum=0, maximum=0.05))
+luminosity_distance = bilby.core.prior.PowerLaw(alpha=2, name='luminosity_distance', minimum=1, maximum=750, unit='Mpc')
+ra = Uniform(minimum=0, maximum=2 * np.pi, name='ra',  boundary='periodic')
+dec = Cosine(name='dec')
+cos_theta_jn = Uniform(name='cos_theta_jn', minimum=-1, maximum=1)
+psi = Uniform(name='psi', minimum=0, maximum=np.pi, boundary='periodic')
+phase = Uniform(name='phase', minimum=0, maximum=2 * np.pi, boundary='periodic')
+lambda_1 = Uniform(name='lambda_2', minimum=0, maximum=5000)
+lambda_2 = Uniform(name='lambda_2', minimum=0, maximum=5000)
diff --git a/bilby/gw/prior_files/precessing_spins_waveform_tides_off.prior b/bilby/gw/prior_files/precessing_spins_waveform_tides_off.prior
new file mode 100644
index 0000000000000000000000000000000000000000..cd3da227898cf0f7e6265147daf030c7808e8f17
--- /dev/null
+++ b/bilby/gw/prior_files/precessing_spins_waveform_tides_off.prior
@@ -0,0 +1,16 @@
+chirp_mass = Uniform(name='chirp_mass', minimum=3.56, maximum=3.68)
+mass_ratio = Uniform(name='mass_ratio', minimum=0.05, maximum=1)
+mass_1 = Constraint(name='mass_1', minimum=1.00, maximum=22.0)
+mass_2 = Constraint(name='mass_2', minimum=1.00, maximum=22.0)
+a_1 = Uniform(name='a_1', minimum=0, maximum=0.89)
+a_2 = Uniform(name='a_2', minimum=0, maximum=0.05)
+tilt_1 = Sine(name='tilt_1')
+tilt_2 = Sine(name='tilt_2')
+phi_12 = Uniform(name='phi_12', minimum=0, maximum=2 * np.pi, boundary='periodic')
+phi_jl = Uniform(name='phi_jl', minimum=0, maximum=2 * np.pi, boundary='periodic')
+luminosity_distance = bilby.gw.prior.UniformComovingVolume(name='luminosity_distance', minimum=1, maximum=750, unit='Mpc')
+ra = Uniform(minimum=0, maximum=2 * np.pi, name='ra',  boundary='periodic')
+dec = Cosine(name='dec')
+cos_theta_jn = Uniform(name='cos_theta_jn', minimum=-1, maximum=1)
+psi = Uniform(name='psi', minimum=0, maximum=np.pi, boundary='periodic')
+phase = Uniform(name='phase', minimum=0, maximum=2 * np.pi, boundary='periodic')
diff --git a/bilby/gw/prior_files/precessing_spins_waveform_tides_on.prior b/bilby/gw/prior_files/precessing_spins_waveform_tides_on.prior
new file mode 100644
index 0000000000000000000000000000000000000000..12f329e1c91985b14430a514ee38e1cfe82be61b
--- /dev/null
+++ b/bilby/gw/prior_files/precessing_spins_waveform_tides_on.prior
@@ -0,0 +1,18 @@
+chirp_mass = Uniform(name='chirp_mass', minimum=3.56, maximum=3.68)
+mass_ratio = Uniform(name='mass_ratio', minimum=0.05, maximum=1)
+mass_1 = Constraint(name='mass_1', minimum=1.00, maximum=22.0)
+mass_2 = Constraint(name='mass_2', minimum=1.00, maximum=22.0)
+a_1 = Uniform(name='a_1', minimum=0, maximum=0.89)
+a_2 = Uniform(name='a_2', minimum=0, maximum=0.05)
+tilt_1 = Sine(name='tilt_1')
+tilt_2 = Sine(name='tilt_2')
+phi_12 = Uniform(name='phi_12', minimum=0, maximum=2 * np.pi, boundary='periodic')
+phi_jl = Uniform(name='phi_jl', minimum=0, maximum=2 * np.pi, boundary='periodic')
+luminosity_distance = bilby.gw.prior.UniformComovingVolume(name='luminosity_distance', minimum=1, maximum=750, unit='Mpc')
+ra = Uniform(minimum=0, maximum=2 * np.pi, name='ra',  boundary='periodic')
+dec = Cosine(name='dec')
+cos_theta_jn = Uniform(name='cos_theta_jn', minimum=-1, maximum=1)
+psi = Uniform(name='psi', minimum=0, maximum=np.pi, boundary='periodic')
+phase = Uniform(name='phase', minimum=0, maximum=2 * np.pi, boundary='periodic')
+lambda_1 = Uniform(name='lambda_2', minimum=0, maximum=5000)
+lambda_2 = Uniform(name='lambda_2', minimum=0, maximum=5000)
diff --git a/docs/bilby-output.txt b/docs/bilby-output.txt
index 4cfa59a9008bd42c616ddc49a7b1e0c9aec8e374..4426dd010d855b68cf3e79ff17870ba848242429 100644
--- a/docs/bilby-output.txt
+++ b/docs/bilby-output.txt
@@ -95,3 +95,11 @@ done via::
    result.save_posterior_samples()
 
 which will generate a file :code:`outdir/label_posterior.txt`.
+
+
+Visualising the results  
+--------------------
+Bilby also provides some useful built-in plotting tools. Some examples on how
+to visualise results using these tools (and  how to extend them) are shown in
+one of the tutorials at `visualising_the_results.ipynb  <https://git.ligo.org/lscsoft/bilby/-/blob/master/examples/tutorials/visualising_the_results.ipynb>`_.
+
diff --git a/docs/prior.txt b/docs/prior.txt
index b6f48ed1a8580aa88f7572e765f9aa73bcc2606e..8f89a0ad06317cb1852599da9eaa8fb01bebe2f3 100644
--- a/docs/prior.txt
+++ b/docs/prior.txt
@@ -216,3 +216,64 @@ We provide default conversion functions for the BBH and BNS PriorDicts.
 For BBHs this generates all the BBH mass parameters so constraints can be placed on any mass parameters.
 
 For BNSs it also generates the tidal deformability parameters.
+
+-----------------
+Prior Examples 
+-----------------
+
+Here we show some examples of prior files for different waveform families.
+To constrain a certain parameter to a fixed value, you just need:
+
+.. code:: python
+
+  parameter_name = <value>
+
+------
+
+To constrain the prior to a certain range , you can use:
+
+.. code:: python
+
+ parameter_name = Constraint(name='parameter_name', minimum=<value>, maximum=<value>)
+
+------
+
+Note that to activate the tidal effect you need to specify in your configuration
+file:
+
+.. code:: python
+
+ frequency_domain_source_model=lal_binary_neutron_star 
+
+------
+
+
+Aligned spins waveform with tides off
+==============
+
+.. literalinclude:: /../bilby/gw/prior_files/aligned_spins_waveform_tides_off.prior
+
+Aligned spins waveform with tides on
+==============
+
+.. literalinclude:: /../bilby/gw/prior_files/aligned_spins_waveform_tides_on.prior
+
+Precessing spins waveform with tides off
+==============
+
+.. literalinclude:: /../bilby/gw/prior_files/precessing_spins_waveform_tides_off.prior  
+
+Precessing spins waveform with tides on
+==============
+
+.. literalinclude:: /../bilby/gw/prior_files/precessing_spins_waveform_tides_on.prior  
+
+
+-----------------
+Priors using a Jupyter notebook 
+-----------------
+
+Bilby saves as output the prior volume sampled. You might also find useful to
+produce priors directly from a Jupyter notebook. You can have a look at one of
+the Bilby tutorials to check how you define and plot priors in a Jupyter notebook:
+`making_priors.ipynb <https://git.ligo.org/lscsoft/bilby/-/blob/master/examples/tutorials/making_priors.ipynb>`_.