Modes and Nodes

Mode: The mode of a vibrating circular membrane is the frequency at which the different sections of the membrane are vibrating. This frequency is determined by counting the number of nodal lines and circles. The more nodal lines and nodal circles, the higher the frequency.

Node: In a vibrating circular membrane, a node is a place where the medium doesn’t move-as opposed to an anti-node, which has maximum movement. Nodal lines (diametric) and nodal circles (concentric) define the mode number. e.g., Mode 1,1 has one diametric node, and one concentric node.

Mode 1,1  the Principal Tone
(the one we hear as the pitch of the drum)
One diametric node and one concentric node

Unlike one-dimensional vibrating air columns and vibrating strings, vibrating circular membranes are graphed as a two-dimensional object. A two-dimensional circular membrane can have many modes of vibration occurring simultaneously; concentric modes (symmetrical), diametric modes (asymmetrical), and composite modes (which are combinations of the two). With respect to how timpani produce pitch, these modes are the shapes and patterns of vibrations of the head that move the air creating audible frequencies. By nature, these modes are not harmonic, that is the frequency of higher modes are not simple integers times the fundamental frequency as is found in the harmonic series.

Furthermore, since it is vibrating in two dimensions, the modes of a circular vibrating membrane create various combinations of diametric and concentric nodal points.  Nodes or nodal points (nodal lines and circles in the case of a circular membrane) are points which remain at rest while the other parts of the membrane are in a state of motion. Figure 2e is an animation of mode 4,1  which has four nodal diameters and one nodal circle. On the animation below, the nodal diameters and circles show up as white regions that don’t oscillate, while the red and blue regions indicate positive and negative displacements. Animations courtesy of  Dan Russell.

Mode 4,1Fig. 2e
Animation of a  vibrating membrane with one nodal circle
and four nodal diameters occurring in the vibration of mode 4,1.

Concentric and Diametric  Motion

Mode 1,2Figure 2e.1
The sixth mode of vibration mode 1,2. This is a composite mode, which vibrates with two
concentric modes of vibration and one diametric mode of vibration:
the nodal lines will encompass the entire circumference and diameter of the head

Mode 1,2 in motion

For a vibrating circular membrane, nodal lines and circles are points of minimal amplitude and the first nodal circle is always at the outer circumference (the outside edge) of the vibrating membrane. On a timpano, that is where the bearing edge of the bowl touches the head dictating the boundary conditions of the vibrating membrane. This is often referred to as the lip or rim of the bowl. In the customary mode designation, the first number gives the number of nodal diameters, and the second is the number of nodal circles, e.g., the indication (1,1) means that there is one nodal diameter (bisecting the circle) and one nodal circle (the outside edge). This (1,1) mode is the second mode of vibration of a circular membrane and is responsible for what we hear as the pitch of the timpani. It is called the principal tone and is not the fundamental with regard to a timpano’s sound spectrum.