The motion of objects w mass n velocity.
Answer:
-total mass
-location of the axis of rotation
Explanation:
The moment of inertia () is a measure of the rotational inertia (resistance to the change of state of motion) of a body.
This amount depends on the mass distribution of the body and the chosen axis, which is why it must be specified with respect to an axis of rotation.
For example, for the known case of a point mass, its moment of inertia is given by:
Where is the mass and is the distance to the axis of rotation.
Therefore, the moment of inertia of an object depends on its total mass and location of the axis of rotation.
Answer:
12.0 Volt
Explanation:
Step 1: Given data
Resistance of the ohmic dipole (R): 100 Ohm
Intensity of current (I): 120 mA (0.120 A)
Step 2: Calculate the voltage (V) across this chemical dipole
To calculate the voltage across the ohmic dipole, we will use Ohm's law.
I = V/R
V = I × R
V = 0.120 A × 100 Ohm = 12.0 V
-- The potential difference (voltage) is the same across all components
that are connected in parallel.
-- The current is the same through all components that are connected in series.
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