<h3><u>Given</u><u>:</u><u>-</u></h3>
Force,F = 10,000 N
Acceleration,a = 27 m/s²
<h3><u>To</u><u> </u><u>be</u><u> </u><u>calculated:-</u><u> </u></h3>
Calculate the mass.
<h3><u>Solution:-</u><u> </u></h3>
As We know that,
★ Putting the values in the above formula,we get:
It is the limit of acceleration for any given point within the displacement vector. Instantaneous acceleration<span> is how </span>fast<span> a velocity is </span>changing at a specific instant<span>.</span>
Needs work. 100kmph is not a velocity. Deceleration is not sudden. There is no such thing as the "speed" of deceleration. 10 kmph is not a deceleration. And if it were, we would need to know HOW LONG it decelerated. Otherwise an engaging and intriguing question.
r = 22393 m.
From the Coulomb's Law equation F = kq₁q₂/r² we have to clear the distance r:
r = √kq₁q₂/F
Solving:
r = √[(9x10⁹N.m²/C²)(12C)(13C)]/2800N
r = 22393 m
Explanation:
Given info: The Number of turns in the wire is 580 the diameter of
tube is and the length of the tube up to which wire is wrapped is .
Formula to calculate the inductance of the coil is,
Here,
is inductance of the coil.
is the permittivity.
is the number of turns.
is the length up to which wire is wrapped.
is the cross sectional area of the coil.
The expression for the area is,
Substitute in equation (1).
Substitute 580 for
Conclusion:
Therefore, the inductance of the given single conductor wire is
Given info: The rate of increasing current and the inductance of the coil .
The generated emf is,
Here,
is the generated emf.
Conclusion:
Therefore, the generated emf is .