Question detail
In Forces and motion, which response best shows definition precision for Newton's laws of motion: state Newton's first law in terms of motion remaining unchanged when resultant force is zero?
Try the question, check the answer, then read the explanation to understand the curriculum point.
At a glance
MCQ
Type
practice
Style
Topic
Forces and motion
Question
- A. Newton's laws of motion: State Newton's first law in terms of motion remaining unchanged when resultant force is zero ? use Newton's first law with definition precision.
- B. Newton's laws of motion: this confuses resultant force and balanced forces and misses the definition precision focus.
- C. Forces and motion: this gives a vague answer without applying Newton's first law.
- D. Newton's laws of motion: this uses the wrong force or motion condition for state Newton's first law in terms of motion remaining unchanged when resultant force is zero.
Answer
The correct answer is: Newton's laws of motion: State Newton's first law in terms of motion remaining unchanged when resultant force is zero ? use Newton's first law with definition precision.
Explanation
The correct option is Newton's laws of motion: State Newton's first law in terms of motion remaining unchanged when resultant force is zero ? use Newton's first law with definition precision.. It is correct because it answers the approved objective to state Newton's first law in terms of motion remaining unchanged when resultant force is zero in the specific subtopic Newton's laws of motion. The definition precision focus keeps resultant force and balanced forces distinct and uses the named force or motion idea instead of a generic Physics statement.
Common mistake
Misunderstanding Newton's First Law
Students often state that an object will always remain at rest unless acted upon by a force, neglecting that it can also continue moving at constant velocity when no resultant force acts.
Clarify that Newton's first law states that an object will remain at rest or continue to move at a constant velocity unless acted upon by a resultant force, emphasizing both scenarios.
Related flashcards
Flashcard 1 of 5
Related practice questions
Question 1 of 5
Choose an answer, get feedback, then move sideways through the set.
