The three quantities related in Newton's second law of motion are force (F), mass (m), and acceleration (a). The law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, the relationship is expressed as F = ma.
The force needed can be calculated using Newton's second law, F = m * a, where F is the force, m is the mass of the car (1000 kg), and a is the acceleration (3 m/s^2). Therefore, the force needed would be 3000 Newtons.
The force required to move a 1500 kg vehicle with an acceleration of 3 m/s^2 can be calculated using Newton's second law, which states force equals mass times acceleration. Therefore, the force required would be 4500 Newtons (1500 kg * 3 m/s^2 = 4500 N).
A force vector of -3 Newtons indicates that the force is acting in the opposite direction of the positive direction, with a magnitude of 3 Newtons.
On earth, 3 kg weighs 29.4 newtons. On the moon, the same 3 kg weighs 4.8 newtons. On the way there and back, the same 3 kg weighs zero newtons.
All 3 of them (Kepler's laws of planetary motion).
The three quantities related in Newton's second law of motion are force (F), mass (m), and acceleration (a). The law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, the relationship is expressed as F = ma.
The force needed can be calculated using Newton's second law, F = m * a, where F is the force, m is the mass of the car (1000 kg), and a is the acceleration (3 m/s^2). Therefore, the force needed would be 3000 Newtons.
The second "equation" is, in fact, two equations, and the three equations are inconsistent.The "second" equation gives :2x = 3 so that x = 3/2 and also y = 3But substituting these values in the first equation implies that 3 = (3/2) - 3or 3 = 3/2 or 2 = 1 which is a contradiction.The second "equation" is, in fact, two equations, and the three equations are inconsistent.The "second" equation gives :2x = 3 so that x = 3/2 and also y = 3But substituting these values in the first equation implies that 3 = (3/2) - 3or 3 = 3/2 or 2 = 1 which is a contradiction.The second "equation" is, in fact, two equations, and the three equations are inconsistent.The "second" equation gives :2x = 3 so that x = 3/2 and also y = 3But substituting these values in the first equation implies that 3 = (3/2) - 3or 3 = 3/2 or 2 = 1 which is a contradiction.The second "equation" is, in fact, two equations, and the three equations are inconsistent.The "second" equation gives :2x = 3 so that x = 3/2 and also y = 3But substituting these values in the first equation implies that 3 = (3/2) - 3or 3 = 3/2 or 2 = 1 which is a contradiction.
The force required to move a 1500 kg vehicle with an acceleration of 3 m/s^2 can be calculated using Newton's second law, which states force equals mass times acceleration. Therefore, the force required would be 4500 Newtons (1500 kg * 3 m/s^2 = 4500 N).
yes ACCORDING TO NEWTONS 3 LAW-EVERY REACTION HAS EQUAL AND OPPOSITE REACTION.SO IF WE TAKE BIRTH WE SHOULD DIE ACCORDING TO NEWTONS 3 LAW-EVERY REACTION HAS EQUAL AND OPPOSITE REACTION.SO IF WE TAKE BIRTH WE SHOULD DIE
it is most commonly known in newtons 1st law. so hope this helps everyone... ; )
All 3 of them (Kepler's laws of planetary motion).
A force vector of -3 Newtons indicates that the force is acting in the opposite direction of the positive direction, with a magnitude of 3 Newtons.
We can only give the mass of the object. Newton's second law of motion will show that Force = mass x acceleration. therefore 12 Newtons = 4 kilogrammes x 3 m/s2 To calculate final velocity you will need to specify the time, the acceleration (and the initial velocity).
On earth, 3 kg weighs 29.4 newtons. On the moon, the same 3 kg weighs 4.8 newtons. On the way there and back, the same 3 kg weighs zero newtons.
The force needed can be calculated using the formula: Force = mass x acceleration. Plugging in the values, Force = 1000 kg x 3 m/s^2 = 3000 N. Therefore, 3000 Newtons of force is needed to accelerate a 1000-kg car at a rate of 3 meters per second squared.