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There a lots of examples of periodic motion. A vibrating guitar string is one. A swinging pendulum is another.
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What is Difference between kinematic and dynamic quantity?
Kinematic quantities describe motion without considering the forces causing it, such as speed and acceleration. Dynamic quantities, on the other hand, involve forces and their effects on motion, such as force, momentum, and energy. Essentially, kinematic quantities focus on describing motion, while dynamic quantities involve the forces that cause that motion.
What are some examples of projectile motion and how can they be solved?
Examples of projectile motion include a baseball being thrown, a basketball being shot, or a cannonball being fired. These motions can be solved using equations of motion, such as the kinematic equations, to calculate the initial velocity, angle of launch, and time of flight. Additionally, the range and maximum height of the projectile can be determined using these equations.
Difference between kinetic and kinematic?
kinematic is the study of state of motion of a body i.e. includes both rest and moving bodies.. but kinetic is study of moving bodies only.... study means calculating velocity, accelration..etc..
What are kinematic quantities?
Kinematic quantities are variables that describe the motion of an object without considering the forces that cause the motion. They include parameters such as position, velocity, acceleration, and time. These quantities help in analyzing and describing the motion of objects in a physics context.
What is the difference between kinematic and dynamic systems in terms of their motion characteristics?
Kinematic systems focus on describing motion without considering the forces causing it, while dynamic systems consider both motion and the forces involved. In simpler terms, kinematic systems look at how objects move, while dynamic systems also consider why they move that way.
What is Difference between kinematic and dynamic quantity?
Kinematic quantities describe motion without considering the forces causing it, such as speed and acceleration. Dynamic quantities, on the other hand, involve forces and their effects on motion, such as force, momentum, and energy. Essentially, kinematic quantities focus on describing motion, while dynamic quantities involve the forces that cause that motion.
What are some examples of projectile motion and how can they be solved?
Examples of projectile motion include a baseball being thrown, a basketball being shot, or a cannonball being fired. These motions can be solved using equations of motion, such as the kinematic equations, to calculate the initial velocity, angle of launch, and time of flight. Additionally, the range and maximum height of the projectile can be determined using these equations.
Difference between kinetic and kinematic?
kinematic is the study of state of motion of a body i.e. includes both rest and moving bodies.. but kinetic is study of moving bodies only.... study means calculating velocity, accelration..etc..
What are kinematic quantities?
Kinematic quantities are variables that describe the motion of an object without considering the forces that cause the motion. They include parameters such as position, velocity, acceleration, and time. These quantities help in analyzing and describing the motion of objects in a physics context.
What is the difference between kinematic and dynamic systems in terms of their motion characteristics?
Kinematic systems focus on describing motion without considering the forces causing it, while dynamic systems consider both motion and the forces involved. In simpler terms, kinematic systems look at how objects move, while dynamic systems also consider why they move that way.
What are some of examples of motion energy What are some examples of motion energy?
electric fan
What are the some examples of motion?
Some examples of motion are-random motion,periodic motion,rotatory motion,circular motion and osclitory motion
What is the study of kinematic called?
motion
When can the kinematic equation be used, and what condition must be met for it to be applicable?
The kinematic equation can be used to calculate an object's motion when it moves with constant acceleration. The condition that must be met for it to be applicable is that the acceleration of the object remains constant throughout its motion.
What are the Newton kinematic equations and how are they used to describe the motion of objects?
The Newtonian kinematic equations are a set of equations that describe the motion of objects in terms of their position, velocity, and acceleration. These equations are used to predict and analyze the motion of objects in various situations. They are based on Newton's laws of motion and provide a mathematical framework for understanding how objects move in response to forces acting on them.
When can you use kinematic equations to solve problems related to motion?
You can use kinematic equations to solve problems related to motion when you have information about an object's initial velocity, acceleration, time, and displacement. These equations can help you calculate various aspects of an object's motion, such as its final velocity, position, or time taken to reach a certain point.
What are the kinematic equations with friction and how do they describe the motion of an object?
The kinematic equations with friction incorporate the effects of friction on the motion of an object. These equations describe the object's position, velocity, and acceleration as it moves with friction present. By accounting for friction, these equations provide a more accurate representation of how the object moves and how its motion changes over time.
