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A Car Has A Mass Of 1.00 × 103 Kilograms, And It Has An Acceleration Of 4.5 Meters/Second2. What Is The Net Force On The Car? A. 0.9 × 103 Newtons B. 2.5 × 103 Newtons C. 4.5 × 103 Newtons D. 9.0 × 103 Newtons E. 9.6 × 103 Newtons. Therefore, calculate the net force on car as follows. Identify the known values from the question.
A car has a mass of 1.00 × 103 kilograms, and it has an acceleration of 4.5 meters/second2. What is the net force on the car? 0.9 × 103 newtons b.
2.5 × 103 newtons c. What is the net force on the car? If the distance between the two objects is reduced by half,.
The given question involves concepts from physics. what is the net force on the car?a.0.9 × 103 newtonsb.2.5 ×. A car has a mass of 1.00 × 103 kilograms, and it has an acceleration of 4.5 meters/second2.
By newton's second law f is equal to m multiplied a so f here is the force m is the mass of object a is the acceleration now substitute the values over here so 1 multiplied 10. Object a attracts object b with a gravitational force of 5 newtons from a given distance. Mathematically, f = m × a.
Solution for a car has a mass of 1.00 × 103 kilograms, and it has an acceleration of 4.5 meters/second2. It is given that mass of car is kilograms and acceleration is 4.5. 0.9 × 103 newtons b.
Given that a car with a mass of 1.00 × 10³ kilograms experiences an acceleration of 4.5 meters/second², we can substitute these values into the equation to get: Therefore, calculate the net force on car as follows. Force is the product of mass and acceleration.
