Good, up until almost the end.
It's not an "opposing" force. It's an "external" force.
And the object in motion continues in "constant, uniform" motion. That's important.
It covers both constant speed and the straight line direction.
Newton's Second Law
yes, this is correct.
That's not so at all. Every point on earth has a different set of latitude and longitude numbers.If you feel like it for some reason, it's possible to travel in a way that only one ofthe numbers changes and the other one doesn't.-- If you drive straight east or straight west, you're staying at the same latitudeand driving through different longitudes.-- If you drive straight north or straight south, you're staying at the same longitudeand driving through different latitudes.But you don't have to do that. In general, as you move around to different places,both your latitude and your longitude are changing.
All the objects on the earth including the atmosphere are in motion along with the earth. So, it is not possible to perceive the motion of the earth staying on the earth.
Newton's first law of motion says that "Things in rest, stay in rest and things in motion, remain in motion with the same velocity, unless acted upon an unbalanced force." For example when you see someone standing still they are staying at rest Unless you push them then they are in motion Until they run into a pole or a person
Finding a good balance between fitness and other aspects of life is an important element of staying motivated to work out.
Some safety measures a person in field work could perform in bad weather include seeking shelter, entering a vehicle, and staying away from tall objects. Lightning and strong winds are the most likely causes for injuries during bad weather.
Newton's First Law called the Law of Inertia, deals with objects having constant motion staying in a straight-line.
Gravity! Or being or staying right in front of or behind that thing or moving object.
it is when your eyes wonder to the outside instead of staying straight.
On the wagon, straight, clean, moral.
An object in motion stays in motion with the same velocity unless acted on by an unbalance force. That is newtons 1st law. Skiing demonstrates this because you are staying in motion by resisting the force of gravity and friction, so you are the inbalance force. An ubalanced for is a force when two object pushed against each other and one wins. So there is an unbalanced for. So when you skiing your that ubalanced force which is resisting gravity and friction.
It was rumoured that they stayed at the Hilton Hotel but left straight after the concert for London.
You can do that in a number of ways. Certain conditioners keep your hair from frizzing up and staying long and straight. This is not the healthiest way to treat your hair but once in a while, use a hair straightener, it tends to stay straight for the whole day.
The object must be stationary. Work done happens when the object is moving in the direction of the force- if it is staying still, there is no work done!
No, since the person inside the lift is usually fixed to one spot and stationary objects do not posess kinetic energy.
That's not so at all. Every point on earth has a different set of latitude and longitude numbers.If you feel like it for some reason, it's possible to travel in a way that only one ofthe numbers changes and the other one doesn't.-- If you drive straight east or straight west, you're staying at the same latitudeand driving through different longitudes.-- If you drive straight north or straight south, you're staying at the same longitudeand driving through different latitudes.But you don't have to do that. In general, as you move around to different places,both your latitude and your longitude are changing.
The past progressive of "to stay" is "was staying" or "were staying" depending on the subject of the sentence. For example, "I was staying at a hotel" or "They were staying with friends."
All the objects on the earth including the atmosphere are in motion along with the earth. So, it is not possible to perceive the motion of the earth staying on the earth.