Answer:
The net force that the object has is 6000 newtons
Step-by-step explanation:
The net force acting on an object is equal to the mass of the object multiplied by the acceleration of the object
F = m a, where
- m is the mass of the object in kilogram
- a is the acceleration that the object accelerates with it in meter per square second
A cannonball begins accelerating at 40 m/s²
∴ The acceleration is 40 meters per square second
∴ a = 40 m/s²
∵ The mass of the cannonball is 150 kilograms
∴ m = 150 kg
- Substitute a and m in the rule of the force
∵ F = m a
∴ F = 150(40)
∴ F = 6000 newtons
The net force that the object has is 6000 newtons
The greatest common factor is 4.
Answer:
Step-by-step explanation:
Convert mixed number to improper fraction:
Apply the fraction rule:
Multiply the numbers:
Convert improper fractions to mixed numbers:
Write the problem in long division format:
Divide by to get
Multiply the quotient digit by the divisor
Subtract from
The solution for long division of is with a remainder of
Convert to mixed number:
Convert to decimal using long division
Divide by to get
Multiply the quotient digit by the divisor
Subtract from
Add a decimal place and a zero to the dividend
Bring down the zero from the dividend
Divide by to get
The solution for long division of is
Add
Multiply
Anything multiplied by is the same number.
Divide the the numbers to get decimal form
Divide by
In an Arithmetic sequence, the difference between two consecutive terms of the sequence remains the same. This difference is known as common difference.
If we observe the given options, we can note:
In option A, the difference between two consecutive terms is the same and is equal to 1.
In option B, the difference between two consecutive terms is the same and is equal to -2.
In option C, the difference is not the same.
In option D, the difference between two consecutive terms is the same and is equal to 5.
In option E, the difference is not the same.
So, the correct options are A,B and D