1 mole Cu(NO3)2 = 187.5558g
6.36mol Cu(NO3)2 x 187.5558g/mol = 1190g (rounded to 3 significant figures)
I believe it must be "Árbol del Tule", a Montezuma Cypress in Mexico, which has been claimed to weigh 636 tonnes. The figure is possibly not very reliable, but I guess it is still over 500 tonnes in weight. The biggest Giant Sequoia, General Sherman, has almost double volume, but the density is only about 0.30 kg/dm³ (a figure I just found somewhere, so don't trust it), so it should weigh about 450 tonnes (possibly more). For the largest Coast Redwood, Lost Monarch, I also calculate 450 tonnes. Sources: http://en.wikipedia.org/wiki/Tree, http://en.wikipedia.org/wiki/%C3%81rbol_del_Tule
1 Remove the air handler electrical disconnect. Pull out the electrical disconnect on the air handler. If you have an old air handler without an electrical disconnect, turn off the circuit breaker to the air handler.2 Remove the panel off the air handler. Use the screwdriver to remove all the screws holding the panel in place.3 Locate the electric heater in the air handler cabinet. Remove the ribbon cables on the electric heater. Remove all the screws holding the electric motor in place. After you have the screws and the cables off, you can safely pull out the electric heater. If you do not know what the electric heater looks like, look at the replacement heater for guidance.4 Place the new electric heater where the old one was. Secure the heater in place by installing the screws. Connect the ribbon cable to the electric heater to finish the wiring.5 Replace the air handler cover and secure it in place with the screwdriver. Turn on the power by inserting the electrical disconnect back in place or turn on the circuit breaker . Turn on the electrical heater and wait at least 10 minutes for it to start.For all your heating, cooling, and refrigeration needs in the St. Louis, Mo.metro area. Contact Ricotta Heating and Air 24/7. (636) 274-5900
The uncertainty of climate change because of global warming is much greater than previously thought, and as a result, policymakers should adopt a robust, adaptive-decision strategy to cope with potential consequences, researchers at the University of Illinois say. There is uncertainty about what monetary value to assign to the costs and benefits of various policies to reduce global warming. And yet the influence of uncertainty in policymaker's decisions is ignored in most studies of the issue. The authors try to explicitly incorporate the effect of uncertainty in the choice of global warming abatement policies. The approach they develop draws on the emerging literature on investment under uncertainty - in particular, that on the option-valuation approach. Their numerical applications focus on the Cline's (1992) analysis of global warming, but it may be applied to a range of global warming analyses. First, they assess whether it is optimal to implement Cline's strategy of limiting global warming today, or whether it should be postponed, and for how long. Then, they identify the optimal policy to be implemented today for different levels of uncertainty about the costs and benefits of policies to reduce global warming.
636 µg = 0.000636 g
66.156 315 636 pounds
The density of the block of marble is 2.23 g/cm3. This was calculated by dividing the mass (636 g) by the volume (285 cm3) of the marble block.
636/1
636/1
6% of $636.00= 6% * 636= 0.06 * 636= $38.16
0.0031
sqrt(636) = 25.219 approx.
804 multiplied by 636 is 511,344
636 multiplied by 95 is 60,420.
796
Yes, 636 is divisible by 4.