Since your weight remains constant, the only variable is the area. Pressure is the ratio of Force to Area, implying that the larger the area the smaller the pressure and vice versa. Since lying down translate into occupying a larger area than when standing up, a lower pressure is exerted on the floor while lying compared to when standing on the floor.
When lying down, the pressure you exert on the floor is evenly distributed over a larger surface area, resulting in lower pressure per square inch compared to when standing up. When standing, your weight is concentrated on a smaller area, leading to higher pressure per square inch on the floor.
An ordinary human standing exerts a pressure equivalent to the body weight divided by the area in contact with the ground. On average, this pressure is about 10-15 pounds per square inch (psi).
You will exert more pressure when you stand on your toes because your body weight is concentrated on a smaller surface area. This increases the pressure on the toes compared to when you are standing flatfooted with the weight distributed across a larger surface area.
Sea water will exert more pressure than river water due to its higher density. The pressure exerted by a fluid is directly proportional to its density, so sea water, being more dense than river water, will exert a greater pressure.
The pressure you exert when standing on one foot is actually your weight divided by the area of contact between your foot and the ground. Shoe size is not a relevant factor in this calculation as it does not affect the pressure. The smaller the area of contact, the greater the pressure exerted on the ground.
It is important for a brush in a motor to exert the right amount of pressure to ensure proper contact with the commutator or slip ring. Insufficient pressure could lead to poor electrical contact, causing performance issues or damage to the motor. Excessive pressure could cause wear and overheating, shortening the lifespan of the brush and motor.
Personally i am a dancer and i do, do pointe when standing on the amount of pressure that you excert depends on how many years you have been training i am 12 and on one toe the pressure is not that big because you have the toe padding which takes most of the pain away so the pressure really isn't that great.
Yes
An ordinary human standing exerts a pressure equivalent to the body weight divided by the area in contact with the ground. On average, this pressure is about 10-15 pounds per square inch (psi).
You will exert more pressure when you stand on your toes because your body weight is concentrated on a smaller surface area. This increases the pressure on the toes compared to when you are standing flatfooted with the weight distributed across a larger surface area.
Sea water will exert more pressure than river water due to its higher density. The pressure exerted by a fluid is directly proportional to its density, so sea water, being more dense than river water, will exert a greater pressure.
The pressure you exert when standing on one foot is actually your weight divided by the area of contact between your foot and the ground. Shoe size is not a relevant factor in this calculation as it does not affect the pressure. The smaller the area of contact, the greater the pressure exerted on the ground.
It is important for a brush in a motor to exert the right amount of pressure to ensure proper contact with the commutator or slip ring. Insufficient pressure could lead to poor electrical contact, causing performance issues or damage to the motor. Excessive pressure could cause wear and overheating, shortening the lifespan of the brush and motor.
athmospheric pressure
Plants exhibit turgor pressure when their cells are fully hydrated and the central vacuole is swollen with water, causing the cell to become rigid and firm. This pressure aids in maintaining the structural integrity of the plant and supports processes such as cell expansion for growth.
No, snowshoes help distribute your weight over a larger area, which decreases the amount of pressure you exert on the snow. This prevents you from sinking deep into the snow, making it easier to walk on top of it.
idek
tiptoesWhen standing on tiptoe, the force exerted by your body remains the same, but is now concentrated in a smaller area. Pressure is measured in force divided by area. By reducing the area, you increase the pressure.