What is the force required in N? Work in J? Power Required in W?
A vacuum in the evaporator of a refrigerating system is 284 mmHg. The barametric pressure is 742 mmHg. Determine the absolute pressure in Pa. pHg= 13596 kg/m^3. Mass of 210 kg is elevated 24.5m in 1 minute 34 seconds.
The force required to cause the yielding of the solidis called the yield force.
Torque T=Nmsin x, thus Force N=T/msin x. If sin x is zero Torque is zero and Force is zero.
Party poppers are normally popped with a force applied by a finger. The force required is maybe 10 Newtons.
The force required to crush a tin can can vary depending on its size and material thickness, but it generally ranges from 30 to 50 pounds of force (approximately 133 to 222 newtons). The specific force needed also depends on the method of crushing and whether the can is empty or contains liquid. Factors such as the can's design and structural integrity also play a role in determining the required force.
Turning moment (Nm) = Force (N) x Perpendicular Distance from the pivot to the line of action of the force (m)
The effort force required would be 10 N. This is because mechanical advantage is calculated as Load force/Effort force, so the Effort force = Load force/Mechanical advantage. In this case, 30 N (Load force) divided by 3 (Mechanical advantage) equals 10 N for the Effort force.
The work done to lift the weight is given by the formula: work = force * distance. Setting the work as the weight times the height raised, we can calculate the force required as follows: force = work / distance = (2000 N * 1 m) / 4 m = 500 N. This means a force of 500 N was required to raise the weight.
The minimum force required to lift a 50-N load using a single fixed pulley is 50 N. This is because a fixed pulley only changes the direction of the force applied, not the amount of force needed to lift the load.
The mechanical advantage of this machine is 0.5. This is calculated by dividing the output force (15 N) by the input force (30 N). This means that the machine reduces the force required by half to produce the desired output force.
It's 320 N. Since the friction force is in the direction opposite to the motion, thepulling force and the friction force balance, the net horizontal force on the box iszero, and its speed is therefore constant.
The force required can be calculated using Newton's second law, F = m * a, where F is the force, m is the mass (2 kg), and a is the acceleration (3 m/s^2). Therefore, the force required is 6 N.
When using a lever to lift a 45 N rock, the force required would be an input force. This is because you are applying the force to the lever to lift the rock against the force of gravity. The output force would be the force exerted by the lever on the rock.
C. 648 n
F=0.4(n) where f is force required to move box form resting (static) position and n is the normal force applied by the surface of the table. So F=.4x20kg=8kg. 8kg are required to overcome resisting force due to friction. 8kg=Appox. 78N. 78N of force is required to overcome resisting force due to friction.
The measure of force required to move an object is known as the force of friction. Friction is the resistance that occurs when two surfaces come into contact with each other. The force of friction is influenced by factors such as the roughness of the surfaces and the weight of the object.
648 N
The work done to push the box can be calculated as the product of force and distance, so W = F * d. Plugging in the values, W = 5 N * 10 m = 50 Joules. Therefore, 50 Joules are required to push the box 10 meters with a force of 5 N.