Suppose you had a piston of radius r = 0.01 m and initial height h =...

Suppose the radius, height and volume of a right circular cylinder are denoted as r, h,...

Suppose the radius, height and volume of a right circular cylinder are denoted as r, h, and V . The radius and height of this cylinder are increasing as a function of time. If dr/dt = 2 and dV/dt = 10π when r = 1, h = 2, what is the value of dh/dt at this time?

Thomas Brown ask that A cylindirical container hold an ideal gas and fitted with a piston...

Thomas Brown ask that A cylindirical container hold an ideal gas and fitted with a piston of mass m. radius of cylinder is r and system is in equilibrium at a height h. Assume P₀ is outside pressure. a) what is the absolute pressure of gas trapped under piston. b) İf you move piston a small amount x, show that it does small oscillations and find the radial frequency for it. Comment on what happens if you pull piston too...

Consider a process that occurs at constant volume. The initial volume of gas is   2.30 L  ,...

Consider a process that occurs at constant volume. The initial volume of gas is   2.30 L  , the initial temperature of the gas is   26.0 °C  , and the system is in equilibrium with an external pressure of 1.2 bar (given by the sum of a 1 bar atmospheric pressure and a 0.2 bar pressure due to a brick that rests on top of the piston). The gas is heated slowly until the temperature reaches  51.2 °C  . Assume the gas behaves ideally, and...

A) A 1500-kg car is lifted to a height h by a hydraulic lift containing an...

A) A 1500-kg car is lifted to a height h by a hydraulic lift containing an incompressible fluid. A force of F_1 applied on a piston of area A_1 results in a larger force of F_2 on the plunger of larger area A_2. Suppose the piston has a radius of 0.0120 m and the plunger’s radius is 0.150 m. Calculate the height to which the car is lifted if the work done by the plunger is 200 J. (Assume that...

(a) (2 marks) A 2000-kg car is lifted to a height h by a hydraulic lift...

(a) A 2000-kg car is lifted to a height h by a hydraulic lift containing an incompressible fluid. A force of F1 applied on a piston of area A1 results in a larger force of F2 on the plunger of larger area A2 . Suppose the piston has a radius of 0.0120 m and the plunger’s radius is 0.750 m. Calculate the height to which the car is lifted if the work done by the plunger is 200 J. (Assume...

Please solve the following problems. You must show all work. 1. A 10.0 cm radius piston...

Please solve the following problems. You must show all work. 1. A 10.0 cm radius piston compresses a gas isothermally from a height of 15.0 cm to 2.50 cm at a constant pressure of 2.0 atm. a) How much heat was added to the gas? b) Now if 7000 J of heat is added to the system and the piston is only moves 5.0 cm up, what is the change in the internal energy of the system is the pressure...

Consider a satellite of mass m in a circular orbit of radius r around the Earth...

Consider a satellite of mass m in a circular orbit of radius r around the Earth of mass ME and radius RE. 1. What is the gravitational force (magnitude and direction) on the satellite from Earth? 2. If we define g(r) to be the force of gravity on a mass m at a radial distance r from the center of the Earth, divided by the mass m, then evaluate the ratio g(r)/g(RE)to see how g varies with radial distance. If...

The radius of the loop-the-loop shown below is R = 8.000 m. A) From what initial...

The radius of the loop-the-loop shown below is R = 8.000 m. A) From what initial height should the block be released from rest in order for the block to just barely make it through the loop-the-loop? B) How fast is the block moving at the top of the loop-the-loop in the case described in part A above? C) How do your results in parts A and B above change if you double the mass of the block? D) Explain...

The radius of the loop-the-loop shown below is R = 8.000 m. A) From what initial...

The radius of the loop-the-loop shown below is R = 8.000 m. A) From what initial height should the block be released from rest in order for the block to just barely make it through the loop-the-loop? B) How fast is the block moving at the top of the loop-the-loop in the case described in part A above? C) How do your results in parts A and B above change if you double the mass of the block? D) Explain...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal...

A rigid cubic container of side 0.25 m is filled with 10 moles of the ideal gas Xenon and is then sealed so that no gas can get out or in. The initial pressure of the gas is recorded as 2.8 x 105 Pa. You may use the following values for this question: Gas constant R: 8.31 J/(mol K) Boltzmann constant kB : 1.38 x 10-23 J/K Avogadro's number NA: 6.02 x 1023 /mol A) Determine the total amount of...