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g Light is a traveling wave! The oscillations are oscillations of electric fields. The electric fields oscillate in the y-direction while the light travels in the x direction, so we can create a wave equation Ey(x,t); Ey is the y-component of the electric field, x is position in meters, and t is time in seconds. Consider light with a wave length of 550 nanometers, a wave speed of 3.00 x 108 m/s , and an amplitude of 10 V/m (volts/meters). Construct the traveling wave equation for this light if at t = 0 seconds, the light is at its maximum positive value and is traveling in the negative x-direction. Your equation, Ey(x,t) , should only have the variables x and t (i.e. calculate the values of the relevant traveling wave quantities to three sig figures and use those in the equation you are constructing, do not use the symbols in your final answer).
On December 31, 2019, Barton, Inc. leased lab equipment with a fair value of $1,650,000 from Banner Rentals Co. The agreement is a six-year noncancelable lease requiring annual payments of $328,600 beginning December 31, 2019. The guaranteed residual value is $200,000, but Barton expects the equipment to be worth $0 at the end of the lease. The lease is appropriately accounted for by Barton as a finance lease. Bartons incremental borrowing rate is 10%. Barton does not know the interest rate implicit in the lease payments is 11%. The present value of an annuity due of 1 for 6 years at 10% is 4.7908. The present value of an annuity due of 1 for 6 years at 11% is 4.6959. The present value of 1 for 6 years at 10% is 0.56447. The present value of 1 for 6 years at 11% is 0.53464. In its December 31, 2019 balance sheet, Barton should report a lease liability of