Logout successful - Authent... Auburn University Degree W... Homework 10 The Expert TA Human-like.. Google LE (9%) Problem 9: A large room contains a volume of air of V- 19 m? at a temperature of Ta = 59° F. It also contains a bathtub holding a volume of water of V = 0.72 m at a temperature of T = 115° F. 20% Part (n) If the density of the air at Te is 0 -1.25 kg/mº, calculate the mass...
a and b needed (5%) Problem 14: The Seawolf class nuclear submarines have a crush depth of approximately d = 735 m. The density of seawater is e = 1,03x10 kg/ml. Atmospheric pressure is Po=1.01x10 Pa. theexpert A 50% Part (a) Find the inward force of the water, in newtons, at crush depth on a circular porthole with a radius of 0.43 m. Grade Summa Deductions Potential E 4 5 6 Submissions Attempts remai (49 per attemp detailed view sin()...
(10%) Problem 9: Two cars are heading towards one another. Car A is moving with an acceleration of a 4-5 ms. Car B is n with an acceleration of aB 9 m/s. The cars are initially at rest and separated by a distance d- 2300 m on the x-axis. oving 38 25% Part (a) At what time, in seconds, do the cars meet? Grade Summary 7.69 Potential 100% 7 8 9 HOME coso asino atan acotan0 sinho cosho tan cotanho...
Part a and b Thank you so much! Please! Help pleted February 27 Begin Date 2/24/2017 12:00:00 AM Due Date: 2/27/2017 2:00:00 AM End Date: 2/27/2017 2:00:00 AM (20%) Problem 4 A bowling ball of m kg is launched from a spring compressed by a distance 039 m at an angle of 0 39 mass 1.1 that the ball reaches a maximum height of h 4,9 m, measured from the initial measured from the horizontal. It is observed energy the...
a-b LH al. 2017 1 .UU. (9%) Problem 10: Suppose you attach an object with mass m to a the end of a vertically hanging spring originally at rest, and let it bounce up and down. You release the object from rest at the spring's original rest length 50% Part (a) If the spring has a force constant of 9.5 N/m and the mass of the object is 0.25 kg, find the amplitude of the Oscillations, in meters. Grade Summary...
Sites Cassan Class Management 1 Help Chapter 19- part 2 (19b) Begin Date: 1/2272019 1 00.00 AM Due Date: 1212019 1155.00 PM End Date: 1282019 11500 PM (2090) Problem 5: Consider a parallel plate rubber. You may assume the rubber has a dielectric constant x- 6.7 capacitor having plates ofarea l 45 cm2 that are separated by a018 mm ofneopene 50% Part (a) What is the capacitance in μF? Grade Sammary Potential 100 Submissiens cotanO asinacos0 atan acotanO sinh coshO...
Problem 6 G The Electric Field in The Vicinity/X 1 + x Expert TAI Hurman-like Grac ent.aspx Class t I Help Chapter 20 Begin Date: 8/20/2018 12:00:00 AM Due Date: 2/1/2019 11:59:00 PM End Date: 5/5/2019 11:59:00 PM (13%) Problem 6: Suppose you have a 155 ,uF capacitor à What charge is stored in it when 112 V is applied to it, in millicoulombs? cotanO asinacos0 atan0 acotan sinho cosh tanh cotanhO . Degrees Radians 1 2 3 NO Submit...
all please (11%) Problem 9: A heart defibrillator being used on a patient has an RC time constant of 10.5 ms due to the resistance of the patient's body and the capacitance of the defibrillator. Randomized Variables t= 10.5 ms C = 7.5 F V=14 kV ► A50% Part (a) If the defibrillator has an 7.5 UF capacitance, what is the resistance of the path through the patient in k2? (You may neglect the capacitance of the patient's body and...
(8%) Problem 3: In a particular Cartesian coordinate system, a particle has coordinates X(t) = 2sin(31) + C. y= 0, z=0. where t is in seconds, x is in meters, and C is a constant to be determined by the data. At t=0 the particle was at x = 1 m. 14% Part (a) Find the value of constant C, in meters. C=1 Correct! * 14% Part (b) Find the instantaneous velocity, in meters per second, at 1-1.5 S. vy(t)...
(11%) Problem 6: To maintain a constant friction of the road (the rolling resistance). Assume that the drag coefficient for a Toyota Camry is 0.28, while for a Hummer it is 0.64. speed, the force provided by a car's engine must equal the drag force plus the force of The density of air at this temperature is 1.21 kg/m Randomized Variables S66 km/h S92 km/h @theexpertta.com- tracking id: 4N89-19-F9-48-AF40-16204. In accordance with Expert TA's Terms of Service, copying this information...