I believe it is: Loop condition Loop actions And how the loop breaks
A counted loop is a loop that executes the loop's statement a pre-determined number of times. The count represent the exit condition of the loop. A loop that is not counted is an infinite loop.
The nested loop.
a fixed loop is obviously a loop that is fixed ;D
No such thing as if-loop. if-else statement is not a loop.
simply because its light and when you make a plane its sruface area keps it floatin and the shape of the plane controls the direction of the plane so you could even make a plane do the loop de loop
The block must be released from a vertical height equal to 2 times the radius of the loop at the top of the inclined plane. This height allows the block to have sufficient velocity at the top of the loop to overcome gravity and complete the loop without falling off.
A plane that loops the loop
A plane that loops the loop and a hula hoop
A plane is a flat surface - a 2-dimensional surface. A plane shape is a figure, such as a square, a circle, or a wriggly loop on that surface. It has length and width but no height (or thickness).
The magnetic field due to a constant current through a circular loop is the same shape, outside the loop, as the field due to a bar magnet. At the centre of the loop the field can be found, using the Biot-Savart Law, to be (Equation 1: URL in related links), where ?0 is the permeability of free space, I is the current through the loop, R is the radius of the loop and z-hat is a unit vector perpendicular to the plane of the loop. The field on the axis of the loop can be found, again using the Biot-Savart Law, to be (Equation 2: URL in related links), where z is the distance from the centre of the loop along its axis and all other symbols have the same meaning as in the previous equation.
Yes, it is possible to orient a current loop so that it does not tend to rotate in a uniform magnetic field. This can be achieved by aligning the plane of the current loop perpendicular to the direction of the magnetic field. In this configuration, there will be no net torque acting on the loop, thus preventing it from rotating.
The circular loop of wire carrying current will align itself in a plane perpendicular to the direction of the magnetic field created by the current flowing through the loop. This is a result of the magnetic force exerted on the current-carrying loop in the presence of the magnetic field.
they just wanted a plane that loops the loop and a hula hoop.
To position a flat loop of wire in a changing magnetic field so that no electromotive force (emf) is induced in the loop, align the plane of the loop parallel to the direction of the magnetic field lines. This orientation ensures that the magnetic flux through the loop remains constant, even as the magnetic field changes. If the magnetic field changes direction, the loop should be rotated to maintain this parallel alignment, thus preventing any change in flux and the subsequent induction of emf.
Loop Loop Loop Loop - 2014 was released on: USA: 15 February 2014
Any plane shape. Take a piece of string and tie it into a loop of length 9 cm. Put in down on a flat surface. Then move bits of the loop in and out - every one of the shapes you make will have a perimeter of 9 cm.