50 Matching calculators found!
Nth Catalan Number (
990 Calculations)
Nth Catalan Number formula is defined as the nth number in Catalan numbers, which are a sequence of natural numbers that occur in various counting Problems.
Depth given Water Surface Slope (
21 Calculations)
The Depth given Water Surface Slope formula is defined as a parameter defined by Eckman (1905) considering the problem of an enclosed sea of finite, constant depth.
Reduced Mass (
3495 Calculations)
The Reduced mass formula is defined as the "effective" inertial mass appearing in the two-body problem of Newtonian mechanics. It is a quantity which allows the two-body problem to be solved as if it were a one-body problem.
Reduced Mass using Moment of Inertia (
425 Calculations)
The Reduced mass using moment of inertia formula is defined as the "effective" inertial mass appearing in the two-body problem of Newtonian mechanics. It is a quantity which allows the two-body problem to be solved as if it were a one-body problem.
Roof Snow Load (
1196 Calculations)
The Roof Snow Load is defined as the downward force on a building's roof by the weight of accumulated snow and ice.
Period t3 Manufacturing Model (
13 Calculations)
Period t3 manufacturing model with the shortage is when the inventory level of the finished product reaches zero, and the shortage is building at the rate r.
Wind Pressure as given by ASCE 7 (
489 Calculations)
The Wind Pressure as given by ASCE 7 is defined as the design wind pressures for the main wind force-resisting system of Buildings of all heights.
Fundamental Period for Steel Frames (
207 Calculations)
The Fundamental Period for Steel Frames is defined as the fundamental period for steel frames when we have a prior info of the height of the building.
Moment of Hydrodynamic Force about Base (
17 Calculations)
The Moment of Hydrodynamic Force about Base formula is defined as imposed on an object, such as a building, by water flowing against and around it.
Fundamental Period for Reinforced Concrete Frames (
77 Calculations)
The Fundamental Period for Reinforced Concrete Frames formula calculates fundamental period for reinforced concrete frames when we have a prior info of the height of the building.
Freeboard for given Wave Transmission Coefficient (
21 Calculations)
The Freeboard for given Wave Transmission Coefficient is defined as height of watertight portion of building or other construction above given level of water in river, lake, etc.
Sinking Fund for Buildings (
74 Calculations)
The Sinking Fund for Buildings formula is defined as the amount which has to be set aside at fixed intervals of time out of the gross income so that at the end of a lifetime of a building, the fund should accumulate to the initial cost of building.
Fundamental Period for other Buildings (
534 Calculations)
The Fundamental Period for other Buildings is defined as the fundamental period for all other Buildings except reinforced concrete frames, steel frames and steel eccentrically braced frames when we have a prior info of the height of the building.
Land to Building Ratio (
774 Calculations)
The Land to Building Ratio is a measure used in real estate that compares the land area to the total floor area of Buildings on that land, indicating development density and land utilisation efficiency.
Cooling load from lighting (
715 Calculations)
Cooling load from lighting formula is defined as the total heat gain generated by artificial lighting systems in a building, taking into account the wattage of the lighting, the building's thermal characteristics, and the type of lighting fixtures used, to determine the required cooling capacity of the air conditioning system.
Total Cooling Load due to Equipment (
40 Calculations)
Total Cooling Load due to Equipment formula is defined as the total heat gain that occurs in a building due to the heat emitted by various equipment and devices, which affects the air conditioning load and ultimately the building's cooling system design.
Cooling load Heat Gain through windows (
1199 Calculations)
Cooling load Heat Gain through windows formula is defined as the total amount of heat that enters a building through its windows per hour, which affects the overall cooling load and energy consumption of the building, and is a crucial factor in designing an efficient cooling system.
Corner of Three Walls of Equal Thickness (
29 Calculations)
Corner of Three Walls of Equal Thickness formula is defined as a method to determine the thermal bridging coefficient, which represents the heat flow through the corner of three walls of equal thickness in a building, providing a crucial parameter for building thermal performance evaluation and energy efficiency assessment.
Sensible Cooling Load Heat Gain through Structure (
101 Calculations)
Sensible Cooling Load Heat Gain through Structure formula is defined as the total heat gain that occurs through the building structure, including walls, roofs, and floors, due to temperature differences between the interior and exterior of the building, which affects the cooling load requirements.
Mean Anomaly (
2555 Calculations)
The Mean Anomaly formula is defined as the fraction of an elliptical orbit's period that has elapsed since the orbiting body passed periapsis, expressed as an angle that can be used in calculating the position of that body in the classical two-body problem.
Recovery Factor (
19 Calculations)
The Recovery Factor formula is defined as the function of adiabatic Wall Temperature, static temperature of free steam and stagnation temperature. In the actual case of a boundary-layer flow problem, the fluid is not brought to rest reversibly because the viscous action is basically an irreversible process in a thermodynamic sense. In addition, not all the free-stream kinetic energy is converted to thermal energy— part is lost as heat, and part is dissipated in the form of viscous work. To take into account the irreversibilities in the boundary-layer flow system, a recovery factor is defined.
Curvilinear Grid Location Equation (
57 Calculations)
Curvilinear Grid Location Equation formula is defined as a method to determine the location of a point in a curvilinear grid, which is essential in the Space Marching Finite Difference Method to obtain additional solutions of the Euler Equations, providing a powerful tool for numerical analysis and problem-solving.
Thermal Resistance in Convection Heat Transfer (
898 Calculations)
Thermal Resistance in Convection Heat Transfer is a concept used to quantify the opposition to heat flow through a fluid. It is analogous to electrical resistance in a circuit and helps to simplify the analysis of heat transfer Problems by treating them as a series of resistances.
Prandtl Number given Recovery Factor for Gases for Laminar Flow (
18 Calculations)
The Prandtl Number given Recovery Factor for Gases for Laminar Flow formula is defined as the square of recovery factor. In the actual case of a boundary-layer flow problem, the fluid is not brought to rest reversibly because the viscous action is basically an irreversible process in a thermodynamic sense. In addition, not all the free-stream kinetic energy is converted to thermal energy— part is lost as heat, and part is dissipated in the form of viscous work. To take into account the irreversibilities in the boundary-layer flow system, a recovery factor is defined.
Height of Container given Radius and Angular Velocity of Container (
16 Calculations)
The Height of Container given Radius and Angular Velocity of Container formula is defined as the function height of free surface of liquid, radius of container, angular velocity of container and gravitational acceleration. During rigid-body motion of a liquid in a rotating cylinder, the surfaces of constant pressure are paraboloids of revolution. Pressure is a fundamental property, and it is hard to imagine a significant fluid flow problem that does not involve pressure.
Recovery Factor for Gases with Prandtl Number near Unity under Laminar Flow (
10 Calculations)
The Recovery Factor for Gases with Prandtl Number near Unity under Laminar Flow formula is defined as the function of Prandtl number. In the actual case of a boundary-layer flow problem, the fluid is not brought to rest reversibly because the viscous action is basically an irreversible process in a thermodynamic sense. In addition, not all the free-stream kinetic energy is converted to thermal energy— part is lost as heat, and part is dissipated in the form of viscous work. To take into account the irreversibilities in the boundary-layer flow system, a recovery factor is defined.
Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure (
35 Calculations)
The Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure formula is defined as the function of height of the free surface of liquid without rotation, angular velocity, gravitational acceleration, radius of container in which the liquid is kept and radius at nay given point in the liquid. During rigid-body motion of a liquid in a rotating cylinder, the surfaces of constant pressure are paraboloids of revolution. Pressure is a fundamental property, and it is hard to imagine a significant fluid flow problem that does not involve pressure.
Angular Velocity of Liquid in Rotating Cylinder just before Liquid Starts Spilling (
50 Calculations)
The Angular Velocity of Liquid in Rotating Cylinder just before Liquid starts Spilling formula is defined as the function of height of container, height of free surface of liquid, radius of container. During rigid-body motion of a liquid in a rotating cylinder, the surfaces of constant pressure are paraboloids of revolution. Pressure is a fundamental property, and it is hard to imagine a significant fluid flow problem that does not involve pressure.
Angular Velocity of Liquid in Rotating Cylinder at Constant Pressure when r is Equal to R (
24 Calculations)
The Angular Velocity of Liquid in Rotating Cylinder at Constant Pressure when r is equal to R formula is defined as the function of height of the free surface of liquid without rotation, angular velocity, gravitational acceleration, radius of container in which the liquid is kept. During rigid-body motion of a liquid in a rotating cylinder, the surfaces of constant pressure are paraboloids of revolution. Pressure is a fundamental property, and it is hard to imagine a significant fluid flow problem that does not involve pressure.
Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure when r is Equal to R (
13 Calculations)
The Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure when r is equal to R formula is defined as the function of height of the free surface of liquid without rotation, angular velocity, gravitational acceleration, radius of container in which the liquid is kept. During rigid-body motion of a liquid in a rotating cylinder, the surfaces of constant pressure are paraboloids of revolution. Pressure is a fundamental property, and it is hard to imagine a significant fluid flow problem that does not involve pressure.
Large Plane Wall (
15 Calculations)
Large Plane Wall formula is defined as a measure of the surface area of a large plane wall, which is a critical parameter in various engineering and architectural applications, providing valuable insights into the design and construction of Buildings and structures.
Collapse Prevention Level (
15 Calculations)
The Collapse Prevention Level formula is defined as the building performance level consisting of the structural collapse prevention level with no consideration of nonstructural vulnerabilities, except that parapets and heavy appendages are rehabilitated.
Latent Heat Gain from people (
449 Calculations)
Latent Heat Gain from people formula is defined as the total heat energy released by the human body into the surrounding air, which affects the indoor air quality and thermal comfort, and is an essential parameter in designing heating, ventilation, and air conditioning systems for Buildings.
Equipment Total Cooling Load (
94 Calculations)
Equipment Total Cooling Load formula is defined as the total heat load that needs to be removed by the cooling system from a building or a data center, taking into account the heat generated by various equipment and the heat gain from the surroundings.
Sensible Heat Gain from people (
959 Calculations)
Sensible Heat Gain from people formula is defined as the amount of heat energy emitted by occupants in a building, which affects the cooling load and is influenced by factors such as metabolic rate, activity level, and clothing. It is an important consideration in heating, ventilation, and air conditioning (HVAC) system design.