write five applications of each of Newton's laws of motion
Answers
Answer:
Newton's laws of motion can be applied in numerous situations to solve motion problems. Some problems contain multiple force vectors acting in different directions on an object. Some motion problems contain several physical quantities, such as forces, acceleration, velocity, or position.
Answer:
His second law is more notably named as the law of acceleration. His law is;
"The rate of change of momentum of an object is directly proportional to the resultant force acting on the body and is in the same direction."
This law means that the force of the object moving will be equal to the opposing force such as air resistance. Mathematically, Newton's second law is stated as:
{\displaystyle {\overrightarrow {\mathbf {F} }}={\frac {d{\overrightarrow {\mathbf {p} }}}{dt}}}\overrightarrow {{\mathbf {F}}}={\frac {d\overrightarrow {{\mathbf {p}}}}{dt}}
where F is the total force, p is the momentum, and t is the time passed. In classical physics, where the object's mass is constant, this equation becomes a more familiar form:
{\displaystyle {\overrightarrow {\mathbf {F} }}={\frac {d{\overrightarrow {\mathbf {p} }}}{dt}}={\frac {dm{\overrightarrow {\mathbf {v} }}}{dt}}=m{\frac {d{\overrightarrow {\mathbf {v} }}}{dt}}=m{\overrightarrow {\mathbf {a} }}}\overrightarrow {{\mathbf {F}}}={\frac {d\overrightarrow {{\mathbf {p}}}}{dt}}={\frac {dm\overrightarrow {{\mathbf {v}}}}{dt}}=m{\frac {d\overrightarrow {{\mathbf {v}}}}{dt}}=m\overrightarrow {{\mathbf {a}}}
where m is the object's mass and a is the acceleration of the object. Example
A skydiver jumps from a plane and accelerates until he reaches the highest velocity possible, when this happens his acceleration is equal to nothing, this happens when air resistance is equal to the downward force of the skydiver.