Recent Questions Asked Chemistry

Q : Problem relatedt to magnitude of acceleration due to gravity What must the charge (sign and magnitude) of a particle of mass 1.47 g be for it to remain stationary when placed in a downward-directed electric field of magnitude 700 N/C? Use 9.81 m/s^2 for the magnitude of the acceleration due to gravity.

Q : How many grams of hydrogen gas were released How many grams of hydrogen gas were released by the reaction of 1.00g of aluminum with excess potassium hydroxide solution?

Q : Determine the water velocity in each of the exit pipes The mass flow rate of water in the smaller of the two pipes is 4 lb/s, and the tempetrature of the water exiting each pipe is 72F. Determine the water velocity in each of the exit pipes, in ft/s.

Q : How far must he now travel to reach base camp He was supposed to travel due north for 4.8 km, but when the snow clears, he discovers that he actually traveled 7.8 km at 45° north of due east. (a) How far must he now travel to reach base camp?

Q : Calculate the molar absorptivity of species A0.032-M aqueous sample of species "X" was analyzed by atomic absorption spectroscopy at 525 nm and in a 1.00-cm celland yielded a %T value of 32.57% .

Q : Derive model equation-mass and temperature for cstr reactor Derive the model equation, mass and temperature for a CSTR reactor with a first order reqaction A= product. Assume: constant temperature and density.

Q : Man used enough energy to go from aardvark to beeville A man used enough energy to go from Aardvark to Beeville. On the first day he traveled 1/3 of the distance. On day two he traveled 1/2 of the remaining distance.

Q : Closest approach to the zirconium nucleus A proton (m = 1.67 × 10-27 kg, q = e) is sent from far away and impinge directly on a Zirconium nucleus (Q = 40e). The proton's initial speed is 5.0 × 105 m/s. What is the proton's distance of closest approach to the Zirconium nucleus?

Q : Derive equation for pfr reactor with first order reaction Derive the model equation, mass and temperature for a PFR reactor with a first order reaction A= product.