On the “near” side of the Earth (the side facing the moon), the gravitational force of the moon pulls the ocean’s waters toward it, creating one bulge. On the far side of the Earth, inertia dominates, creating a second bulge. In this way the combination of gravity and inertia create
two bulges of water
.
What is the effect of inertia and gravity working together?
Gravity Working with Inertia
The gravity pulls the sun and the planets together, while keeping them apart. The inertia provides the
tendency to maintain speed and keep moving
.
Which statement explains gravity and inertia work together?
Which statement explains how gravity and inertia work together?
They change the motion of objects
. Which statement describes how Earth compares to the moon? Earth has more inertia than the moon.
What are the forces that act on the moon?
Acting on the satellite are two forces:
gravity, pulling the satellite toward Earth
, and this centrifugal force, pushing the satellite away.
How does gravity plays a role in the movements of the moon?
Effects of gravity on Earth and the Moon. … Newton found the Moon’s inward acceleration in its orbit to be 0.0027 metre per second per second, the same as (1/60)
2
of the acceleration of a falling object at the surface of Earth. gravitational force. Earth’s gravitational force weakens with
increasing distance
.
Is gravity stronger than inertia?
Surprisingly, horizontal impulses changed substantially more with weight than with mass.
Gravity exerted a greater influence than inertia
on both vertical and horizontal forces generated against the ground during running.
Is inertia due to gravity?
Inertia is nothing but gravity of the body acting on itself
against any change of state. Therefore gravitational and inertial mass are same.
What is Earth’s inertia?
Explanation: If we think of the earth as a solid sphere rotating about its center, the moment of inertia is given by:
I=25MR2
.
How does the distance between two objects affect the force of gravity?
Since gravitational force is
inversely proportional to the square of the separation distance
between the two interacting objects, more separation distance will result in weaker gravitational forces. So as two objects are separated from each other, the force of gravitational attraction between them also decreases.
Which statement explains how gravity?
Answer:
Gravitational pull between two objects increases as the mass of one increases
.
What happens if you fall on the moon?
The drag pressure across the surface area of the fabric is enough to slow descent to a safe speed. On the moon,
there is no atmosphere —
and therefore no aerodynamic drag to slow the fall of high surface area objects. If you were to use a parachute on the moon, you’d end up looking pretty silly and possibly broken.
How do you calculate the force of gravity on the moon?
- G is the universal gravitational constant, G = 6.674×10
– 11
m
3
kg
– 1
s
– 2
. - M is the mass of the massive body measured using kg.
- R is the radius of the massive body measured using m.
- g is the acceleration due to gravity measured using m/s
2
.
What is the net force acting on the moon?
Answer: In the case of the moon orbiting the Earth (or any object orbiting another object to which it is attracted by some force), the net force on the moon is always directed toward the Earth. … The
gravitational force
on the moon is shown as Fg.
Can you jump off the moon?
Although
you can jump very high on the moon
, you’ll be happy to know that there’s no need to worry about jumping all the way off into space. In fact, you’d need to be going very fast – more than 2 kilometres per second – to escape from the moon’s surface.
What are the 4 fundamental forces?
Forces and carrier particles
There are four fundamental forces at work in the universe:
the strong force, the weak force, the electromagnetic force, and the gravitational force
. They work over different ranges and have different strengths. Gravity is the weakest but it has an infinite range.
Does gravity hold stars together?
A star is a sphere of gas
held together by its own gravity
.