Generally decreased.
Given a constant velocity v, a radius r, the equation for the period T is given as:T = 2πr/vSo, as radius r increases, so does the period T.
resistance is inversily proportional to squaire of radius of wire.
No. Radius of gyration depends upon the axis of rotation of the body.
f = m * ( v^2 / r ).if the mass (m) and circular velocity (v) remain constant, increasing the radius (r) will decrease the force (f), and vice versa..example:10 kg mass, 10 m/s circular velocity, radius 1 mforce = 1 000 n.double the (1 m) radius to 2 metresforce = 500 n (halved).halve the (1 m) radius to 0.5 metresforce = 2 000 n (doubled)
Assuming that angles are measured in radians, and angular velocity in radians per second (this simplifies formulae): Radius of rotation is unrelated to angular velocity. Linear velocity = angular velocity x radius Centripetal acceleration = velocity squared / radius Centripetal acceleration = (angular velocity) squared x radius Centripetal force = mass x acceleration = mass x (angular velocity) squared x radius
Given a constant velocity v, a radius r, the equation for the period T is given as:T = 2πr/vSo, as radius r increases, so does the period T.
decreases because of increased nuclear charge
Bronchoconstriction is parasympathetic.... It has a decreased radius and increased resistance. At rest the bronchioles can be constricted, dont need a large diaameter.. therefore airflow is decreased making breathing harder..
Decreased the FEV1 %
resistance is inversily proportional to squaire of radius of wire.
No. Radius of gyration depends upon the axis of rotation of the body.
Yes. The area is proportional to the square of the radius. If the radius becomes smaller, so does the area.
From what? You need other variables you can use in the standard circle formulae from which to calculate the radius.
increase afferent radius or decrease efferent radius depending on the degree of change in blood pressure
Physio Ex Answer: When the right vessel radius was increased the flow rate increases.
calculate radius of crane: The radius is always measured from the centre of rotation and is the radius measured after the boom deflects forward when under load.
The fastest rotation of the smallest radius does.