Obtain a formula for the mass flow rate of a Newtonian fluid flowing down an inclined...

If a block of mass 10 kg slides down an inclined plane having an angle of...

If a block of mass 10 kg slides down an inclined plane having an angle of 30 degrees above the horizon,at the end of the inclined plane there is a frictionless surface on the end of it lies a spring having spring constant 500N/m.There is friction on the inclined plane,Find the coefficient of kinetic friction of the inclined plane. when the block reaches the spring,it compresses it by 0.40m Let the block start from rest and the height be 20...

A box with 10 kg of mass slides down an inclined plane that is 1.7 m...

A box with 10 kg of mass slides down an inclined plane that is 1.7 m high and 3.5 m long. Due to friction the box reaches 3.0 m/s at the bottom of the inclined plane. Beyond the inclined plane lies a spring with 650 N/m constant. It is fixed at its right end. The level ground between the incline and the spring has no friction The box compressed the spring, got pushed back towards the incline by the spring....

A box with 11 kg of mass slides down an inclined plane that is 2.0 m...

A box with 11 kg of mass slides down an inclined plane that is 2.0 m high and 3.5 m long. Due to friction the box reaches 3.3 m/s at the bottom of the inclined plane. Beyond the inclined plane lies a spring with 650 N/m constant. It is fixed at its right end. The level ground between the incline and the spring has no friction The box compressed the spring, got pushed back towards the incline by the spring....

Transport Phenomena/Mass Momentum Heat transfer problem An incompressible, Newtonian fluid inside a tube flows downward due...

Transport Phenomena/Mass Momentum Heat transfer problem An incompressible, Newtonian fluid inside a tube flows downward due to gravity. The tube is oriented vertically, and moves upward with a constant velocity, V. There is no pressure gradient. a). Identify an appropriate coordinate system to find the velocity profile in the tube. b) Make assumptions and postulate the 3 velocity components for this problem. c) Write down a component of the Navier-Stokes equation to find the velocity profile. SImplify to obtain a...

A block of mass 4.8 kg slides 24 m from rest down an inclined plane making...

A block of mass 4.8 kg slides 24 m from rest down an inclined plane making an angle of 24 o with the horizontal. If the block takes 10 s to slide down the plane, what is the retarding force due to friction?

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a...

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a diameter of 15 mm and a length of 25 m. The inner surface of the tube is heated with a uniform heat flux of 1000 W/m2. Measurements shown that the inlet temperature of the fluid is 30 ˚C. Assume the outer surface of the tube is perfectly insulated. Consider the thermophysical properties of the fluid are as follows: density ρ = 1000 kg/m3, specific...

A 5.000 kg mass starts from rest and slides down on an inclined plane that is...

A 5.000 kg mass starts from rest and slides down on an inclined plane that is 5 degrees above the horizontal. If friction causes the body to accelerate at 20%, determine magnitude and direction of friction force.

A block with mass m = 14.6 kg slides down an inclined plane of slope angle...

A block with mass m = 14.6 kg slides down an inclined plane of slope angle 15.8 ° with a constant velocity. It is then projected up the same plane with an initial speed 4.35 m/s. How far up the incline will the block move before coming to rest?

A Newtonian liquid of density 2400 kg m-3 flows down under gravity in steady, laminar conditions...

A Newtonian liquid of density 2400 kg m-3 flows down under gravity in steady, laminar conditions over an inclined flat plate at an angle of 30° to the horizontal plane. The thickness of the film can be taken as constant. The velocity distribution across the liquid film is given by: ux= (ρgδ/μ)y(1-y2/δ)sinθ where ux= velocity in the x-direction along the plate, r = density of liquid, g = gravitational acceleration, d = liquid film thickness, m = viscosity of liquid,...

A 3-kg-mass is sliding down a frictionless inclined plane (θ = 22º) towards a spring of...

A 3-kg-mass is sliding down a frictionless inclined plane (θ = 22º) towards a spring of force constant 450 N/m. The mass is initially a meter from the spring and is traveling with a speed of 0.8 m/ s. How much is the spring compressed when the mass is momentarily stationary? Assume the mass of the spring is negligible.