The number density of gas atoms at a certain location in the space above our planet...
The number density of gas atoms at a certain location in the space above our planet is about 1.1×1011 m−3 , and the pressure is 1.2×10–10 N/m2 in this space. What is the temperature in Celsius there?
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The number density of gas atoms at a certain location in the
space above our planet...
The number density in a container of neon gas is 4.50×1025 m−3 . The atoms are...
The number density in a container of neon gas is 4.50×1025 m−3 . The atoms are moving with an rms speed of 625 m/s . What is the pressure inside the container? What is the temperature inside the container?
The number density in a container of neon gas is 5.50 times 10^25 m^-3. The atoms...
The number density in a container of neon gas is 5.50 times 10^25 m^-3. The atoms are moving with an rms speed of 650 m/s. What is the pressure inside the container? Express your answer with the appropriate units. What is the temperature inside the container? Express your answer with the appropriate units.
A planet of mass 7 × 1024 kg is at location <.98 1011, 2 × 1011,...
A planet of mass 7 × 1024 kg is at location <.98 1011, 2 × 1011, 0> m. A star of mass 6 x 1030 kg is at location <4 × 1011,-3 × 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) on planet = >N
Problem 3.19 A planet of mass 8 × 1024 kg is at location <-7 × 1011,...
Problem 3.19 A planet of mass 8 × 1024 kg is at location <-7 × 1011, 9 ×1011, 0> m. A star of mass 3 × 1030 kg is at location <3 × 1011, -2 × 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) F→= < , , > N
a) In the deep space between galaxies, the density of atoms is as low as 106...
a) In the deep space between galaxies, the density of atoms is as low as 106 atoms/m3, and the temperature is a frigid 2.7 K. What is the pressure (in Pa)? (b) What volume (in m3) is occupied by 6 mol of gas? (c) If this volume is a cube, what is the length of its sides in kilometers?
There are 5.00x10^26 atoms/m3 in a container of argon gas (atomic mass number 40). The pressure...
There are 5.00x10^26 atoms/m3 in a container of argon gas (atomic mass number 40). The pressure in the container when the atoms have a rms speed of 350 m/s is: A. 4.53x10^4 N/m2 B. 1.01x10^4 N/m2 C. 1.01x10^5 N/m2 D. 1.36x10^5 N/m2 E. None of the above.
A planet of mass 5 × 1024 kg is at location <5% 1011,-4 × 1011, 0>...
A planet of mass 5 × 1024 kg is at location <5% 1011,-4 × 1011, 0> m. A star of mass 9 × 1030 kg is at location <-6 × 1011, 9 x 1011, 0> m. It will be useful to draw a diagram of the situation, including the relevant vectors (a) What is the relative position vector r pointing from the planet to the star? r-<-11000000000001130000000000 (b) What is the distance between the planet and the star? 703000000000m (c)...
You are doing research on planet X. The temperature inside the space station is a carefully...
You are doing research on planet X. The temperature inside the space station is a carefully controlled 28 ∘C and the pressure is 753 mmHg . Suppose that a balloon, which has a volume of 850. mL inside the space station, is placed into the airlock, and floats out to planet X. If planet X has an atmospheric pressure of 0.145 atm and the volume of the balloon changes to 3.22 L , what is the temperature, in degrees Celsius,...
Problem 3.13 A planet of mass 3 x 104 kg is at location <6 x 101,...
Problem 3.13 A planet of mass 3 x 104 kg is at location <6 x 101, s 101, 0 m. A star of mass 9 x 100 kg is at location <3 x 1011 8 x 10, 0> m. wil be useful to draw a diagram of the situation, including the relevant vectors (a) What is the relative position vector 7 pointing from the planet to the star? (b) What is the distance between the planet and the star? 1기...
A certain ideal gas has atomic mass number 622. A flask of volume 0.0277 m 3...
A certain ideal gas has atomic mass number 622. A flask of volume 0.0277 m 3 holds this gas under pressure 9.88x105 Pa and temperature 815 K. How many molecules are in the flask? Give your answer is scientific notation. A moon is in circular orbit about the planet Gort. The radius of orbit is 9.21x108 m, and each orbit takes 1.69x106 seconds Find M, the mass of Gort, in kg. Enter your answer in scientific notation.
The number density in a container of neon gas is 5.50 times 10^25 m^-3. The atoms are moving with an rms speed of 650 m/s. What is the pressure inside the container? Express your answer with the appropriate units. What is the temperature inside the container? Express your answer with the appropriate units.
A planet of mass 7 × 1024 kg is at location <.98 1011, 2 × 1011, 0> m. A star of mass 6 x 1030 kg is at location <4 × 1011,-3 × 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) on planet = >N
A planet of mass 5 × 1024 kg is at location <5% 1011,-4 × 1011, 0> m. A star of mass 9 × 1030 kg is at location <-6 × 1011, 9 x 1011, 0> m. It will be useful to draw a diagram of the situation, including the relevant vectors (a) What is the relative position vector r pointing from the planet to the star? r-<-11000000000001130000000000 (b) What is the distance between the planet and the star? 703000000000m (c)...
Problem 3.13 A planet of mass 3 x 104 kg is at location <6 x 101, s 101, 0 m. A star of mass 9 x 100 kg is at location <3 x 1011 8 x 10, 0> m. wil be useful to draw a diagram of the situation, including the relevant vectors (a) What is the relative position vector 7 pointing from the planet to the star? (b) What is the distance between the planet and the star? 1기...
A certain ideal gas has atomic mass number 622. A flask of volume 0.0277 m 3 holds this gas under pressure 9.88x105 Pa and temperature 815 K. How many molecules are in the flask? Give your answer is scientific notation. A moon is in circular orbit about the planet Gort. The radius of orbit is 9.21x108 m, and each orbit takes 1.69x106 seconds Find M, the mass of Gort, in kg. Enter your answer in scientific notation.
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