Question

In: Physics

Calculate the curls of: ? ×V~ = [?yVz ??zVy] xˆ +[ ?zVx ??xVz] yˆ+ [?xVy ??yVx]...

Calculate the curls of: ? ×V~ = [?yVz ??zVy] xˆ +[ ?zVx ??xVz] yˆ+ [?xVy ??yVx] zˆ  

(b) V= y xˆ + z yˆ + x^2 zˆ

Solutions

Expert Solution


Related Solutions

For the following exercises, calculate u ⋅ v. Given v = 〈−3, 4〉 draw v, 2v, and 1/2 v.
For the following exercises, calculate u ⋅ v.Given v = 〈−3, 4⟩ draw v, 2v, and 1/2 v.
For the following exercises, calculate u ⋅ v. Given the vectors shown in Figure 4, sketch u + v, u − v and 3v.
For the following exercises, calculate u ⋅ v.Given the vectors shown in Figure 4, sketch u + v, u − v and 3v.
Calculus dictates that (∂U/∂V) T,Ni = T(∂S/∂V)T,Ni – p = T(∂p/∂T)V,Ni – p (a) Calculate (∂U/∂V)...
Calculus dictates that (∂U/∂V) T,Ni = T(∂S/∂V)T,Ni – p = T(∂p/∂T)V,Ni – p (a) Calculate (∂U/∂V) T,N for an ideal gas [ for which p = nRT/V ] (b) Calculate (∂U/∂V) T,N for a van der Waals gas [ for which p = nRT/(V–nb) – a (n/V)2 ] (c) Give a physical explanation for the difference between the two. (Note: Since the mole number n is just the particle number N divided by Avogadro’s number, holding one constant is equivalent...
Calculate the vibrational energy difference, in cm-1, between the v=0 and v=1 energy level in a...
Calculate the vibrational energy difference, in cm-1, between the v=0 and v=1 energy level in a hydrogen chloride-35 molecule. Isotope masses to three decimal places are taken from NIST and force constants from hyperphysics. Use the isotope mass, not the average mass.
Using E° = .697 V and the Nernst equation, calculate the concentration of Hg2+ in a...
Using E° = .697 V and the Nernst equation, calculate the concentration of Hg2+ in a sample of pond water if [Sn2+] = 0.500 M, [Sn4+] = 0.305 M and Ecell = 0.711 V.
Calculate V and Z for methyl chloride at 100 ° C and 55bar for the ideal...
Calculate V and Z for methyl chloride at 100 ° C and 55bar for the ideal gas equation, by the equation of virial. Data: R = 83.14 cm 3 bar/molK; viral coefficient B equals -242.5 cm3/mol.
For the circuit shown in the figure, calculate the following. (Assume  = 7.32 V and R =...
For the circuit shown in the figure, calculate the following. (Assume  = 7.32 V and R = 5.70 Ω.) A rectangular circuit begins at point a on its left side. On its top side, the circuit splits into two parallel horizontal branches. The top branch contains, from left to right, a 12.0 V battery and a 4.00 Ω resistor. The positive terminal of the battery is to the left of its negative terminal. The bottom branch contains a 2.00 Ω resistor....
Three lightbulbs are connected to a 9-V battery as shown in Fig. 2.56 (a). Calculate:
Three lightbulbs are connected to a 9-V battery as shown in Fig. 2.56 (a). Calculate: (a) the total current supplied by the battery, (b) the current through each bulb, (c) the resistance of each bulb.
matlab use matlab to calculate the velocity of the vertical falling ball (v) as a function...
matlab use matlab to calculate the velocity of the vertical falling ball (v) as a function of time by numerical derive the following measurement values.(x is height in meters and y is the landing time in milliseconds) Make sure that the speed in the starting point is 0. Then reset instantaneous velocity as a function of time in a diagram with matlab x=[0.00 0.20 0.40 0.60 0.80 1.00 1.20 1.50 2.00 2.50 3.00 3.40 3.80 4.20 4.60 5.0] y=[[0.00 1.620...
(a) Calculate the wavelength of an electron under an acceleration voltage of (i) 200 V, (ii)...
(a) Calculate the wavelength of an electron under an acceleration voltage of (i) 200 V, (ii) 1.5 MeV and (ii) 2.5 GeV. Also, calculate the velocity of electrons moving at these acceleration voltages. How does this velocity compare to the speed of light. If they are comparable to the speed of light, use relativistic effects to calculate the wavelength of electron? (b) If the wavelengths are so small, can one expect the resolution of the TEM made with these energies...
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT