Confirm dimensional analysis Angular frequency w=1/(LC)^(1/2)

confirm with dimensional analysis: w (omega) = 1/sqrt (LC) I need first three lines

confirm with dimensional analysis: w (omega) = 1/sqrt (LC) I need first three lines

In an LC circuit, the angular frequency is ω = √1/LC. Explain why an LC circuit...

In an LC circuit, the angular frequency is ω = √1/LC. Explain why an LC circuit with a larger inductance or a larger capacitance will oscillate more slowly. Make your explanation based on physics, not mathematics.

In an LC circuit, the angular frequency is ω = √1/LC . Explain why an LC...

In an LC circuit, the angular frequency is ω = √1/LC . Explain why an LC circuit with a larger inductance or a larger capacitance will oscillate more slowly (NOT more rapidly) . Make your explanation based on physics, not mathematics. Please do not give me the answer already posted.

1.) Show the dimensional analysis for the equation Fs=-k deltax 2.) Show the dimensional analysis for...

1.) Show the dimensional analysis for the equation Fs=-k deltax 2.) Show the dimensional analysis for the equation T=2 pi square root (k/m)

To familiarize yourself with typical values of angular frequency w, conventional frequency, f and period T,...

To familiarize yourself with typical values of angular frequency w, conventional frequency, f and period T, complete the entries in the following table: Case w (rad/s) f (Hz) T(s) A 1x10^9 B 1x10^9 C 1x10^-10 D 60 E 6.28e-3 F 1x10^-6

4. Let W be the three dimensional solid inside the sphere x^2 + y^2 + z^2...

4. Let W be the three dimensional solid inside the sphere x^2 + y^2 + z^2 = 1 and bounded by the planes x = y, z = 0 and x = 0 in the first octant. Express ∫∫∫ W z dV in spherical coordinates.

The resonant angular frequency of any AC RLC circuit is W=2.00x10^3 rad/s. When this circuit operates...

The resonant angular frequency of any AC RLC circuit is W=2.00x10^3 rad/s. When this circuit operates at any input frequency. (a) This input frequency is (higher/lower/equal) than the resonant frequency. Explain why. (b)In this case, the induction coefficient (L) and the electric capacity (C) value can be determined (possible/impossible) Explain why. (c)If obtain L and C values if (b) is possible. If impossible, seek simple conditions that L and C are satisfied with.

Provide 1 zero-dimensional subspace, 2 one-dimensional subspaces, 2 two-dimensional sub spaces, and 1 three-dimensional subspace of...

Provide 1 zero-dimensional subspace, 2 one-dimensional subspaces, 2 two-dimensional sub spaces, and 1 three-dimensional subspace of 3-space. Draw a Venn diagram explaining how your collection of subspaces intersect.

The power supplied by a torque t to rotate an object to angular frequency w is...

The power supplied by a torque t to rotate an object to angular frequency w is p=tw. A common car engine produces t=300 Nm at w=3000 RPM (rotations per minute). Suppose you want to create an electric car that runs on battery and electric motor. Typically, electric car motors utilize a current of 100A and have a cros sectional area of 0.5 m2. Suppose also that the number of wire turns in the coil of the motor is N=100. Q1....

Using dimensional analysis develop an equation for the distance traveled by a freely falling body in...

Using dimensional analysis develop an equation for the distance traveled by a freely falling body in time T, assuming the distance (s) depends upon the weight (w) of the body, the acceleration of gravity (g), and the time.