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What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36 m s?
36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.
What is the acceleration if a suitcase has a mass of 2 kg and a weight of 18 newtons?
The acceleration of the suitcase can be calculated using Newton's second law, which states that force equals mass times acceleration (F = ma). Since weight is a force, we can use the weight of the suitcase (18 N) as the force. Solving for acceleration, we get a = F/m = 18 N / 2 kg = 9 m/s^2. The acceleration of the suitcase is 9 m/s^2.
What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36?
Without a unit, "36" is not an acceleration. we'll assume you're talking aboutunits of "meters per second2".F = M A = (18) x (36) = 648 newtons = about 146 pounds (rounded)
You are moving a dresser that has a mass of 36 kg its acceleration is 0.5 ms2 . what is the force being applied?
The force being applied to the dresser can be calculated using the equation F = m * a, where F is the force, m is the mass of the dresser (36 kg), and a is the acceleration (0.5 m/s^2). Substituting the values gives F = 36 kg * 0.5 m/s^2, resulting in a force of 18 N.
What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36 meters per second squared?
The force required to accelerate a body is found using Newton's second law, which states that force (F) equals mass (m) multiplied by acceleration (a). In this case, the force required would be 18 kg x 36 m/s^2, which equals 648 Newtons.
What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36 m s?
36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.36 meters is not a "rate".If you have an acceleration (in meters per second square), use Newton's Second Law:Net force = mass x acceleration.
What is the acceleration if a suitcase has a mass of 2 kg and a weight of 18 newtons?
The acceleration of the suitcase can be calculated using Newton's second law, which states that force equals mass times acceleration (F = ma). Since weight is a force, we can use the weight of the suitcase (18 N) as the force. Solving for acceleration, we get a = F/m = 18 N / 2 kg = 9 m/s^2. The acceleration of the suitcase is 9 m/s^2.
What has a higher acceleration a 10-kg object acted upon with a net force of 20 N or an 18-kg object acted on by a net force of 30 N?
Acceleration = (force)/(mass)For the first object, A = 20/10 = 2 m/s2For the second object, A = 30/18 = 12/3 m/s2The acceleration of the first object is 20% greaterthan the acceleration of the second one.
What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36?
Without a unit, "36" is not an acceleration. we'll assume you're talking aboutunits of "meters per second2".F = M A = (18) x (36) = 648 newtons = about 146 pounds (rounded)
A person pushes a 3000 kg car and it accelerates 6mss what is the force applied?
Force = mass X acceleration, F=ma=3000kg X 6m/s2=18000kgm/s2=18 kilonewtons
You are moving a dresser that has a mass of 36 kg its acceleration is 0.5 ms2 . what is the force being applied?
The force being applied to the dresser can be calculated using the equation F = m * a, where F is the force, m is the mass of the dresser (36 kg), and a is the acceleration (0.5 m/s^2). Substituting the values gives F = 36 kg * 0.5 m/s^2, resulting in a force of 18 N.
What force is required to accelerate a body with a mass of 18 kilograms at a rate of 36 meters per second squared?
The force required to accelerate a body is found using Newton's second law, which states that force (F) equals mass (m) multiplied by acceleration (a). In this case, the force required would be 18 kg x 36 m/s^2, which equals 648 Newtons.
What is the acceleration of a cabinet of mass 45 kilograms if Jake and Ted push it by applying horizontal force of 25 newtons and 18 newtons respectively in the same direction?
Using Newton's second law (F = ma), we can calculate the total force acting on the cabinet by adding the forces applied by Jake and Ted: 25 N + 18 N = 43 N. Then, we can determine the acceleration using the formula a = F/m, where F is the total force and m is the mass of the cabinet: 43 N / 45 kg = 0.955 m/s^2. Therefore, the acceleration of the cabinet is 0.955 m/s^2 in the direction of the applied force.
Two soccer players kick the same 2-kg ball at the same time in oppposite directions. one kicks with a force of 18 N. the other kicks with a force of 10 N. what is the resulting acceleration?
To find the resulting acceleration, we need to calculate the net force acting on the ball. In this case, the net force is the difference between the two forces: 18 N - 10 N = 8 N. Using Newton's second law (F = ma), we can then find the acceleration by dividing the net force by the mass of the ball: 8 N / 2 kg = 4 m/s^2.
What force is required to accelaerate a body with a mass of 18 kilograms at a rate of 36 miles per second squared?
Assuming you really mean miles, 36 miles is 57934.8 metres. Force is mass times acceleration; Force = 18 X 57934.8 Force = 1 042 826.4 newtons, 1.04 meganewtons (MN) A Boeing 747 aeroplane generates between 200 and 300 kilonewtons per engine (300 kN = 0.3 MN)
What is the acceleration of a 3kg rock that is thrown with a force of 18N?
The acceleration of the rock can be calculated using Newton's second law: F = m*a, where F is the force applied, m is the mass of the rock, and a is the acceleration. Rearranging the formula to solve for acceleration gives a = F/m. Plugging in the values, we get a = 18N / 3kg = 6 m/s^2. Therefore, the acceleration of the rock is 6 m/s^2.
An object of mass 0.50 kg is transported to the surface of Planet X where the object's weight is measured to be 20 N The radius of the planet is 4000000 m What free fall acceleration will the 0.5kg OJ?
The weight of an object is equal to the force of gravity acting on it, which is calculated as weight = mass * acceleration due to gravity. Therefore, 20 N = 0.50 kg * acceleration due to gravity. Solving for acceleration due to gravity gives us 40 m/s^2.
