The first derivative of position with respect to time is zero.

The second derivative of position with respect to time is positive.

The second derivative of position with respect to time equals the negative of the square of the object's angular frequency times position.

The object moves in a circular path.

The string is inextensible.

The pendulum bob is a point mass.

There is friction between the string and the pivot.

The string has negligible mass.

It has a point mass at its center.

It has a uniform mass density.

It experiences no friction.

It is suspended by a string.

It is used to calculate the mass of the pendulum.

It is only applicable to simple pendulums.

It simplifies the equations for small angles.

It allows for larger angles to be used.

The periods are the same if the pendulum lengths are equal.

The periods are the same if the mass distribution is uniform.

The period of a simple pendulum is always longer.

The period of a physical pendulum is always longer.

It is the only correct method.

It is easier to calculate.

It avoids confusion with similar symbols.

It is always more accurate.

1.750 seconds per cycle

2.000 seconds per cycle

1.563 seconds per cycle

1.000 seconds per cycle