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Work = (force) x (distance). Time is not involved.But if that amount of work was done in that amount of time, then(force) x (distance)/(time) is the average power during that time.
Use the formula: distance = time x speed.Use the formula: distance = time x speed.Use the formula: distance = time x speed.Use the formula: distance = time x speed.
What is the formula to determine the number of triangles in a given square of forty-four triangles?
You cannot. Force is mass times acceleration. You have neither.
Yes, power is determined by the formula Power = Force x Distance / Time. So if the force and time are given, you can calculate power if you also know the distance over which the force is applied.
The formula for power is power = force × distance ÷ time.
There is not enough information.
Friction does not depend on distance, but rather on the nature of the surfaces in contact and the force pushing them together. The formula for friction force is given by F_friction = μ * F_normal, where μ is the coefficient of friction and F_normal is the normal force pressing the surfaces together. No calculation involving distance is needed to determine friction force.
The force is given by Newton's formula for gravitation. As the distance increases, the force decreases.
The formula for finding work is: Work = force X distance. To find distance, you must divide both sides by force. After simplifying the equation, the new equation will read: distance = work divided by force
The work done to lift an object is given by the formula: work = force x distance. Since work is given as 3 kJ (3000 J) and distance is given as 3 mm (0.003 m), the force required to lift the object can be calculated. Using the formula for force (mass x gravity), you can determine the mass of the object that requires this work to lift it.
Work = (force) x (distance). Time is not involved.But if that amount of work was done in that amount of time, then(force) x (distance)/(time) is the average power during that time.
To calculate the distance an object was moved by a force of 50 N given a work of 750 Joules, you can use the formula: Work = Force x Distance Rearranging the formula to solve for distance: Distance = Work / Force Plugging in the values: Distance = 750 Joules / 50 N = 15 meters approximately.
The formula to find resistance force is given by R = F/A, where R is the resistance force, F is the force applied, and A is the area over which the force is applied. This formula is often used in physics and engineering to determine the resistance force in various scenarios.
moments = distance (metres) x force or weight (newtons) answer is given in newton metres (Nm)
The force applied by the bulldozer is calculated using the work formula: work = force x distance. Rearranging the formula, force = work / distance. Plugging in the values given, the force applied by the bulldozer to push the boulder is 1500 newtons.