Afloating ice block is pushed through a displacement d = (13.5 m)i + (-14.3 m)j along a straight embankment by rushing water, which exerts a force f = (230 n)i + (-165 n)j on the block. how much work does the force do on the block during the displacement?
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Ответ:
To solve this problem, we are going to use the formula for work which is Fd where x and y are measured separately.
X direction: W = 13.5 x 230 = 3105 Joules
Y direction: W = -14.3 x -165 = 2360 Joules
So the total work is getting the sum of the two: 3105 + 2360 = 5465 Joules
Ответ:
"A 9-cm-diameter spherical ball whose surface is maintained at a temperature of 110?C is suspended in the middle of the room at 20?C. If the convection heat transfer coefficient is 15 W/m2.C and the emissivity of the surface is 0.8, determine the total rate of heat transfer from the ball."
Solution
The ball transfers heat to the room by radiation and convection. First of all, let's calculate the area of the ball's surface. Given the radius r=9 cm=0.09 m, the area is
1) Let's start with radiation. The radiative heat transfer rate is given by Stefan-Boltzmann law:
where
So, using these values, we get:
2) Let's calculate the heat transfer rate by convection. This is given by
where
3) Therefore, the total heat transfer rate is