A balloon has a volume of 1.60×10−2 m3m3 . The absolute pressure in the balloon is...

A balloon has a volume of 1.70 x 10^-2 m^3. The absolute pressure in the balloon...

A balloon has a volume of 1.70 x 10^-2 m^3. The absolute pressure in the balloon is 460 kPa and the temperature is 22 celsius. k = 1.38 x 10^-23 J/K a) How many molecules are there inside the balloon? Express using three significant figures b) what is the average translational kinetic energy of molecules? Express your answer using three significant figures. c) what is the total translational kinetic energy of the energy of the gas.

A balloon has a volume of 1.70×10−2 m3m3 . The absolute pressure in the balloon is...

A balloon has a volume of 1.70×10−2 m3m3 . The absolute pressure in the balloon is 460 kPakPa and the temperature is 24 ∘C∘C. A) Calculate the number of molecules inside the balloon. B) Calculate the average transitional kinetic energy of molecules. C) Determine the total transitional kinetic energy of the gas.

At 20 ∘C (approximately room temperature) the average velocity of N2 molecules in air is 1050...

At 20 ∘C (approximately room temperature) the average velocity of N2 molecules in air is 1050 mph. Part A What is the kinetic energy (in J) of an N2 molecule moving at this speed? Express your answer using four significant figures. Part B What is the total kinetic energy of 1 mol of N2 molecules moving at this speed? Express your answer using four significant figures.

Part A A balloon is floating around outside your window. The temperature outside is -11 ∘C...

Part A A balloon is floating around outside your window. The temperature outside is -11 ∘C , and the air pressure is 0.700 atm . Your neighbor, who released the balloon, tells you that he filled it with 4.90 moles of gas. What is the volume of gas inside this balloon? Part B A 10.0 L gas cylinder is filled with 5.60 moles of gas. The tank is stored at 25 ∘C . What is the pressure in the tank?...

A 2.5 kg solid cylinder (radius = 0.10 m , length = 0.70 m ) is...

A 2.5 kg solid cylinder (radius = 0.10 m , length = 0.70 m ) is released from rest at the top of a ramp and allowed to roll without slipping. The ramp is 0.90 m high and 5.0 m long. Part A When the cylinder reaches the bottom of the ramp, what is its total kinetic energy? (Express your answer using two significant figures.) (answer in J) Part B When the cylinder reaches the bottom of the ramp, what...

Problem 6.29 (2) Part A Assuming that ΔH∘f is constant in the interval 275 K -...

Problem 6.29 (2) Part A Assuming that ΔH∘f is constant in the interval 275 K - 600. K, calculate ΔG∘ for the process (H2O, g,298→H2O, g, 597 K ). **Delta G is in the units: J*mol^-1 Part B Calculate the relative change in the Gibbs energy. Express your answer using two significant figures. **Relative change is a percentage!! Express your answer using four significant figures.

Problem 16.45 part 2 Part E Calculate [OH−] for 1.60 mL of 0.130 M NaOH diluted...

Problem 16.45 part 2 Part E Calculate [OH−] for 1.60 mL of 0.130 M NaOH diluted to 1.50 L . Express your answer using three significant figures. [OH−] =   M   SubmitMy AnswersGive Up Part F Calculate pH for 1.60 mL of 0.130 M NaOH diluted to 1.50 L . Express your answer using three decimal places. pH = SubmitMy AnswersGive Up Part G Calculate [OH−] for a solution formed by adding 4.70 mL of 0.150 M KOH to 20.0 mL...

The collision between a hammer and a nail can be considered to be approximately elastic. Part...

The collision between a hammer and a nail can be considered to be approximately elastic. Part A Calculate the kinetic energy acquired by a 12-g nail when it is struck by a 600-g hammer moving with an initial speed of 5.0 m/s . Express your answer using two significant figures. K =   J  

A 0.540 kg glider on an air track is attached to the end of an ideal...

A 0.540 kg glider on an air track is attached to the end of an ideal spring with force constant 455 N/m ; it undergoes simple harmonic motion with an amplitude of 4.40×10?2 m . Part A Calculate the maximum speed of the glider. Express your answer to three significant figures. vmax = 1.28   m/s Part B Calculate the speed of the glider when it is at x = ?1.60×10?2 m. Express your answer to three significant figures. Part C...

A Pb/Pb2+ concentration cell at 25 ∘Chas initial concentrations of 5.10×10−2 M Pb2+ and 1.60 M  Pb2+...

A Pb/Pb2+ concentration cell at 25 ∘Chas initial concentrations of 5.10×10−2 M Pb2+ and 1.60 M  Pb2+ at the anode and cathode. Part A What is the initial cell potential? Express your answer using two significant figures. Part B What is the cell potential when the concentration of Pb2+ in the cathode has fallen to 1.20 M ? Express your answer using two significant figures. Part C What is the cell potential when the cell is "dead"? Express your answer using...