A cylinder's cross-section area is 10 cm^2, it contains 0.0049 mol of gas, and the spring...

The cylinder in the figure(Figure 1) has a moveable piston attached to a spring. The cylinder's...

The cylinder in the figure(Figure 1) has a moveable piston attached to a spring. The cylinder's cross-section area is 10 cm2, it contains 0.0055 mol of gas, and the spring constant is 1500 N/m. At 18 ∘C the spring is neither compressed nor stretched. How far is the spring compressed if the gas temperature is raised to 130 ∘C? Express your answer to two significant figures and include the appropriate units.

A 10 cm -diameter cylinder contains argon gas at 10 atm pressure and a temperature of...

A 10 cm -diameter cylinder contains argon gas at 10 atm pressure and a temperature of 60 ∘C . A piston can slide in and out of the cylinder. The cylinder's initial length is 19 cm . 2600 J of heat are transferred to the gas, causing the gas to expand at constant pressure. 1-What is the final temperature of the cylinder? 2-What is the final length of the cylinder?

A horizontal spring with spring constant 140 N/m is compressed 20 cm and used to launch...

A horizontal spring with spring constant 140 N/m is compressed 20 cm and used to launch a 2.9 kg box across a frictionless, horizontal surface. After the box travels some distance, the surface becomes rough. The coefficient of kinetic friction of the box on the surface is 0.15. A) Use work and energy to find how far the box slides across the rough surface before stopping. Express your answer to two significant figures and include the appropriate units.

Ideal ideal gas law Internal diameter: d = 1.975 cm Room temperature:   24ᵒC Cross-section area: A...

Ideal ideal gas law Internal diameter: d = 1.975 cm Room temperature:   24ᵒC Cross-section area: A = Local barometric pressure:   741 mm Hg m (kg) V (cm3) Pgauge (Pa) 1/V (cm̶3) 0 25 0 0.5 20.5 1 19 1.5 16.5 2 14.2 2.5 13.9 3 12.4 3.5 12 4 11 4.5 10.2 5 9.6 5.5 8.75 6 8.45

A 390-mL spherical flask contains 0.065 mol of an ideal gas at a temperature of 318...

A 390-mL spherical flask contains 0.065 mol of an ideal gas at a temperature of 318 K. What is the average force exerted on the walls of the flask by a single molecule? Express your answer using two significant figures. In newtons.

A cylinder contains 0.200 mol of carbon dioxide (CO2) gas at a temperature of 30.0 ∘C....

A cylinder contains 0.200 mol of carbon dioxide (CO2) gas at a temperature of 30.0 ∘C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 1.00 atm on the gas. The cylinder is placed on a hot plate and a 920 J of heat flows into the gas, thereby raising its temperature to 124 ∘C. Assume that the CO2 may be treated as an ideal gas. What is the change in internal energy of the...

1. A cylinder with a moveable piston contains 0.89 mol of gas and has a volume...

1. A cylinder with a moveable piston contains 0.89 mol of gas and has a volume of 327 mL. What will its volume be if an additional 0.27 mol of gas is added to the cylinder? Express your answer using two significant figures. Vfinal = ***different kind of question next*** 2. A bag of potato chips contains 595 mL of air at 35.0 ∘Cand a pressure of 765 mmHg. Assuming the bag does not break, what will be its volume...

A sealed container containing 3.8 mol of gas is squeezed, changing its volume from 2.5×10−2 m3...

A sealed container containing 3.8 mol of gas is squeezed, changing its volume from 2.5×10−2 m3 to 1.5×10−2 m3. During this process, the temperature decreases by 9.0 K while the pressure increases by 800 Pa. What was the original pressure of the gas in the container? Express your answer using two significant figures. What was the original temperature of the gas in the container?

A sealed container containing 3.8 mol of gas is squeezed, changing its volume from 2.5×10−2 m3...

A sealed container containing 3.8 mol of gas is squeezed, changing its volume from 2.5×10−2 m3 to 1.5×10−2 m3. During this process, the temperature decreases by 9.0 K while the pressure increases by 800 Pa What was the original pressure of the gas in the container? Express your answer using two significant figures. What was the original temperature of the gas in the container?

A normal mild steel specimen having 50 mm 2 cross section area and 10 cm long...

A normal mild steel specimen having 50 mm 2 cross section area and 10 cm long gauge length was tested. 1. Draw the stress- strain diagram 2. calculate the final length of the bar compare when the specimen unloaded from 400 MPa? 3. calculate the elastic and plastic deformation when the specimen unloaded from 400 MPa Proportionality limit Ultimate Load Failure Load Stress (MPa) 320////// 500 /////////400 Strain 0.0018 //// 0.06///////// 0.12