The factors that affect the heat transfer capacity of an evaporator include the surface area available for heat transfer, the temperature difference between the refrigerant and the surrounding air, the airflow over the evaporator coils, the type of refrigerant used, and the cleanliness of the evaporator coils. Additionally, factors like humidity levels and system design can also impact the heat transfer capacity of an evaporator.
Some factors that affect heat gained or lost include the temperature difference between an object and its surroundings, the surface area of the object, the material of the object, and the thermal conductivity of the material. Additionally, factors such as the duration of thermal exposure and external forces like wind or insulation can influence heat transfer.
Lung capacity is measured using a device called a spirometer, which calculates the volume of air a person can inhale and exhale. Factors that can affect lung capacity include age, gender, height, physical fitness, smoking habits, and certain medical conditions like asthma or COPD.
Factors that affect thermal energy in an object include its temperature, mass, and specific heat capacity. The temperature difference between the object and its surroundings also plays a significant role in determining the transfer of thermal energy. Additionally, the material and state of the object (solid, liquid, gas) can impact its thermal energy content.
Two factors that can affect the temperature of a place are its latitude, which determines the angle of sunlight received, and its proximity to bodies of water, which can moderate temperature due to the water's heat capacity.
The thermal capacity of air refers to its ability to store and release heat. Air has a low thermal capacity compared to other substances like water or metal. This means that air heats up and cools down quickly. In environments where air is the medium for heat transfer, such as in convection, the low thermal capacity of air results in faster heat transfer compared to mediums with higher thermal capacities.
Factors that affect a calorimeter include its insulation properties, heat capacity, and efficiency in measuring temperature changes accurately. Additionally, the material and design of the calorimeter can influence its ability to contain and transfer heat, impacting the reliability of the calorimetric measurements.
Yes, gender does affect lung capacity. Other factors that affect lung capacity include age, weight, height and level of fitness.
heat capacity and mass
Factors that affect data transfer include: 1. availability of data 2. medium of transfer 3. speed of reception/transfer 4. protocols used for negotiation, amongst others
Four factors that can affect the vital capacity of a person are age (vital capacity decreases with age), gender (males tend to have higher vital capacity than females), height (taller individuals usually have higher vital capacity), and physical fitness level (regular exercise can increase vital capacity).
Some factors that affect heat gained or lost include the temperature difference between an object and its surroundings, the surface area of the object, the material of the object, and the thermal conductivity of the material. Additionally, factors such as the duration of thermal exposure and external forces like wind or insulation can influence heat transfer.
they cause individuals to dieoff or leave
The following are the major factors can affect network channel capacity: 1.Data rate-----Bits per second 2.Bandwidth---Cycles per second (Hertz) 3.Error rate
pressure drop in inlet filters and poor maintenance of equipment
Lung capacity is measured using a device called a spirometer, which calculates the volume of air a person can inhale and exhale. Factors that can affect lung capacity include age, gender, height, physical fitness, smoking habits, and certain medical conditions like asthma or COPD.
Factors that affect thermal energy in an object include its temperature, mass, and specific heat capacity. The temperature difference between the object and its surroundings also plays a significant role in determining the transfer of thermal energy. Additionally, the material and state of the object (solid, liquid, gas) can impact its thermal energy content.
Yes and no. Geography itself does not affect where aircraft are routed, but factors such as weather and airspace capacity will affect flight paths.