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How much work is done when a 1-kg mass is raised a vertical distance of 1 m?
The work done is equal to the force needed to lift the mass multiplied by the vertical distance lifted. In this case, the work done is equal to the gravitational force acting on the mass (m x g) multiplied by the vertical distance lifted (1 m). So, the work done would be 1 kg * 9.8 m/s^2 * 1 m = 9.8 Joules.
How much work is done when a 1N mass is raised a vertical distance of 1 m?
The work done is 1 Joule. Work is calculated by multiplying force (1N) by the distance moved (1m) in the direction of the force.
What are the units for work force and distance?
The unit for force is Newtons (N) and the unit for distance is meters (m). Work is measured in units of Joules (J), which is equal to 1 Newton-meter.
A painter uses a fixed pulley to raise a 1-kg can of paint a distance of 10 m.?
The painter will need to do 10 J of work to raise the can of paint 10 m. This is because the work done in raising an object is given by the formula Work = force x distance, where force = weight x gravity. In this case, the force is the weight of the can, which is 1 kg * 9.8 m/s^2 = 9.8 N, and the distance is 10 m. So, Work = 9.8 N x 10 m = 98 J.
Can the gravitational force equal to zero?
According to Newton's law of universal gravitation, every point mass in the universe attracts every other point mass with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers. The formula for this gravitational force (F) is given by: � = � ⋅ � 1 ⋅ � 2 � 2 F= r 2 G⋅m 1 ⋅m 2 where: � F is the gravitational force, � G is the gravitational constant, � 1 m 1 and � 2 m 2 are the masses of the two objects, � r is the distance between the centers of the masses. In this formula, if the masses ( � 1 m 1 and � 2 m 2 ) are zero, the gravitational force would be zero. However, this is a theoretical scenario as masses are fundamental to the concept of gravity.
How much work is done when a force of 2n moves a body through a distance of 10 cm in direction of the force?
force=2N distance moved=o.1 m work done=? work done=force(N)*distance moved (M) work done=2*o.1 work done= 0.2 watts
How much work is done when a 1-kg mass is raised a vertical distance of 1 m?
The work done is equal to the force needed to lift the mass multiplied by the vertical distance lifted. In this case, the work done is equal to the gravitational force acting on the mass (m x g) multiplied by the vertical distance lifted (1 m). So, the work done would be 1 kg * 9.8 m/s^2 * 1 m = 9.8 Joules.
The power required to exert 1 N force over a distance of 1 m in 1 second is?
The power required to exert a force of 1 N over a distance of 1 m in 1 second is 1 watt. This is because power is defined as the rate at which work is done, and in this case, the work done is 1 joule in 1 second.
How much work is done when a 1N mass is raised a vertical distance of 1 m?
The work done is 1 Joule. Work is calculated by multiplying force (1N) by the distance moved (1m) in the direction of the force.
What are the units for work force and distance?
The unit for force is Newtons (N) and the unit for distance is meters (m). Work is measured in units of Joules (J), which is equal to 1 Newton-meter.
What is the formula for moment of a force?
Turning moment (Nm) = Force (N) x Perpendicular Distance from the pivot to the line of action of the force (m)
What is meant by 1 joule of work?
That's the work (or energy) equivalent to applying a force of 1 N, over a distance of 1 m.
What is meant by 1 joule work?
That's the work (or energy) equivalent to applying a force of 1 N, over a distance of 1 m.
A painter uses a fixed pulley to raise a 1-kg can of paint a distance of 10 m.?
The painter will need to do 10 J of work to raise the can of paint 10 m. This is because the work done in raising an object is given by the formula Work = force x distance, where force = weight x gravity. In this case, the force is the weight of the can, which is 1 kg * 9.8 m/s^2 = 9.8 N, and the distance is 10 m. So, Work = 9.8 N x 10 m = 98 J.
How do you calculate distance if you have force - time and mass?
(Force*Time2 )/m = distance Make sure units correct
Can the gravitational force equal to zero?
According to Newton's law of universal gravitation, every point mass in the universe attracts every other point mass with a force that is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers. The formula for this gravitational force (F) is given by: � = � ⋅ � 1 ⋅ � 2 � 2 F= r 2 G⋅m 1 ⋅m 2 where: � F is the gravitational force, � G is the gravitational constant, � 1 m 1 and � 2 m 2 are the masses of the two objects, � r is the distance between the centers of the masses. In this formula, if the masses ( � 1 m 1 and � 2 m 2 ) are zero, the gravitational force would be zero. However, this is a theoretical scenario as masses are fundamental to the concept of gravity.
A force of 6N acts through out a distance of 1M and gives an object a speed of 2MPS What is the mass of the object?
Energy provided by the force = (force) times (distance) = (6 x 1) = 6 joules.Kinetic energy acquired by the object = 1/2 m V2 = the same 6 joules.1/2 m (2)2 = 62m = 6m = 3 kg
