When force is doubled and area is constant, the pressure will also double. This is because pressure is directly proportional to force when the area is constant, as described by the formula pressure = force/area. So, when force is doubled, the pressure exerted will also double.
Pressure is inversely proportional to area when force is constant, so if the area is doubled, the pressure is halved. This is due to pressure being the force applied over a given surface area.
If the area is doubled while keeping the force constant, the pressure exerted by the force will be halved. This is because pressure is defined as force divided by area, so doubling the area will result in a decrease in pressure.
If the force acting on an area is doubled while the area is halved, the pressure remains the same. This is because pressure is the result of force distributed over an area, so as long as the force and area change proportionally, the pressure stays constant.
If the area is doubled while the force remains constant, the pressure will be halved. This is because pressure is inversely proportional to area according to the formula P = F/A, where P is pressure, F is force, and A is area. Thus, increasing the area will decrease the pressure.
If the force applied to an object is doubled, the pressure exerted on the object will also double. Pressure is directly proportional to force, so an increase in force will result in a proportional increase in pressure.
Pressure is inversely proportional to area when force is constant, so if the area is doubled, the pressure is halved. This is due to pressure being the force applied over a given surface area.
when the contact area is doubled keeping the force constant on the boy, there will be less impact on the body .
If the area is doubled while keeping the force constant, the pressure exerted by the force will be halved. This is because pressure is defined as force divided by area, so doubling the area will result in a decrease in pressure.
Since P = F/A, PA = F So, if area is doubled, pressure is halved.
If the force acting on an area is doubled while the area is halved, the pressure remains the same. This is because pressure is the result of force distributed over an area, so as long as the force and area change proportionally, the pressure stays constant.
If the area is doubled while the force remains constant, the pressure will be halved. This is because pressure is inversely proportional to area according to the formula P = F/A, where P is pressure, F is force, and A is area. Thus, increasing the area will decrease the pressure.
If the force applied to an object is doubled, the pressure exerted on the object will also double. Pressure is directly proportional to force, so an increase in force will result in a proportional increase in pressure.
Pressure would decrease to one-third of the original value. Pressure is calculated as force divided by area, so if the force remains constant and the area is tripled, the pressure would decrease proportionally.
It will be double, if the area is unchanged. pressure=Force/area
When atmospheric pressure on a pond remains constant during hot weather, the force of air on the surface of the pond also remains constant. Atmospheric pressure is not affected by temperature changes alone, so the force exerted by the air on the pond's surface stays the same.
Doubled. According to Newton's second law of motion, acceleration is directly proportional to the net force acting on an object when mass is constant. Therefore, doubling the force will lead to a doubling of acceleration.
The constant force exerted by water flowing through a pipe depends on the pressure drop along the pipe, not just the flow rate and pipe size. To determine the force, you would need to calculate the pressure drop based on the pipe characteristics and fluid properties. If the flow rate is doubled, the force may not necessarily double, as it depends on the specific conditions and system characteristics.