Given a specific A⊆ R2, determine A0,α(A), Ad and A (bar over A)

A bar on a hinge starts from rest and rotates with an angular acceleration α =...

A bar on a hinge starts from rest and rotates with an angular acceleration α = 15 + 8t, where α is in rad/s2 and t is in seconds. Determine the angle in radians through which the bar turns in the first 4.90 s.

Assume that α-D-glucose and β-D-glucose are levorotatory and dextrorotatory respectively. The specific rotation Z of an...

Assume that α-D-glucose and β-D-glucose are levorotatory and dextrorotatory respectively. The specific rotation Z of an optically active compound in a set of conditions of temperature and wavelength is give by the equation: Z = observed optical rotation (°)/optical length (dm) and concentration (g/mL) A freshly prepared solution of α-D-glucose shows a specific rotation of =122°. Over time, the rotation of the solution gradually decreases and reaches equilibrium of 52.5°. In contrast a freshly prepared solution of β-D-glucose has a...

The equation of state of a gas is given as bar v(P+10/bar v^2) = RsubuT, where...

The equation of state of a gas is given as bar v(P+10/bar v^2) = RsubuT, where the units of bar v and P are m^3/kmol and kPa respectively. Now 0.49 kmol of this gas is expanded in a quasi-equilibrium manner from 1.6 to 4.9 m^3 at a constant temperature of 290 K. Determine the work done during this isothermal expansion process.

A 48 kg pole vaulter running at 10 m/s vaults over the bar. Her speed when...

A 48 kg pole vaulter running at 10 m/s vaults over the bar. Her speed when she is above the bar is 1.3 m/s. Neglect air resistance, as well as any energy absorbed by the pole, and determine her altitude as she crosses the bar.

    Assume that the following regression model was applied to historical quarterly data: et = a0...

    Assume that the following regression model was applied to historical quarterly data: et = a0 + a1INTt + a2INFt + t        where et  =   percentage change in the exchange rate of the Japanese yen in period t            INTt =   average real interest rate differ­ential (U.S. interest rate - Japanese interest rate) over period t              INFt =   inflation differential (U.S. inflation rate - Japanese inflation rate) in period t    a0, a1, a2 =   regression coefficients...

For each of the following, determine whether it is a vector space over the given field....

For each of the following, determine whether it is a vector space over the given field. (i) The set of 2 × 2 matrices of real numbers, over R. (ii) The set of 2 × 2 matrices of real numbers, over C. (iii) The set of 2 × 2 matrices of real numbers, over Q.

Find the best predicted value 1.Given n = 15, y(hat)= 12.8 + 4.5x, y(bar)= 23, r...

Find the best predicted value 1.Given n = 15, y(hat)= 12.8 + 4.5x, y(bar)= 23, r = .875, α = 0.05, predict y when x = 2.

A. Adding cold metal to hot water can also allow us to determine specific heat. Given...

A. Adding cold metal to hot water can also allow us to determine specific heat. Given the following data for such an experiment calculate the specific heat of the metal. Mass of metal:46.24 ; mass of water 20.0g ; intial intemprature metal: 23C ; intial temprature water 34.5C; final temprature metal and water 30.8C. B.Which is the better method? Adding hot metal to cold water OR adding cold metal to hot water. Explain Advantages and Disadvantages.

You are given the following equations for the Aggregate Demand (AD) and short-run Aggregate Supply (SAS),...

You are given the following equations for the Aggregate Demand (AD) and short-run Aggregate Supply (SAS), AD Y = 2 Ap + 4 (Ms / P) SAS Y = 750 + 250 P Y N = 1250 Natural Real GDP Ap = 250 Autonomous Spending Ms = 125 Nominal Money Supply 1- Find the equilibrium Price level and Real GDP in the short run. 2- Determine the recessionary or inflationary gap if exist and by how much at short run...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉r1=〈sin⁡(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉.r2=〈cos⁡(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉r1=〈sin⁡(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉.r2=〈cos⁡(t),1−t,t^3〉. If the temperature for the points is given by T(x,y,z)=x^2y(5−z),T(x,y,z)=x^2y(5−z), use the Chain Rule to determine the rate of change of the difference D in the temperatures the two spacecraft experience at time t=2. (Use decimal notation. Give your answer to two decimal places.)