A package for physics motion calculations

## Project description

# Physics equations of motion solver

This is a package for physics motion calculations.

# Installation

`pip install agnm`

# Usage

### Displacement

Displacement is calculated using formula:

```
x = (vi-vf)/2*t
```

```
from agnm.motion import displacement
displacement(1, 2.3, 3) # output: 2.65
# or use named variables
displacement(vf=2.3, t=1, vi=3) # output: 2.65
```

### Change in position

Change in position is calculated using formula:

```
x = vi*t+1/2*a*t^2
```

```
from agnm.motion import change_in_position
change_in_position(1, 3, 2) # output: 12.0
# or use named variables
change_in_position(a=2, t=3, vi=1) # output: 12.0
```

### Final velocity

Final velocity is calculated using one of formulas:

```
vf = (vi^2+2a*x)^1/2
vf = vi+a*t
```

```
from agnm.motion import v_final
# using first equation
v_final(vi=1, a=3, x_delta=1.5) # output: 10.0
# using second equation
v_final(vi=1, a=2.3, t=2) # output: 5.6
```

### Average velocity

Average velocity is calculated using one of formulas:

```
va = x/t
va = (vi+vf)/2
```

```
from agnm.motion import v_average
# using first equation
v_average(x_delta=1, t=3) #output: 0.3333333333333333
# using second equation
v_average(vi=1, vf=2.6) #output: 0.8
```

### Acceleration

Acceleration velocity is calculated using one of formulas:

```
a = v/t
a = (vf+vi)/t
```

```
from agnm.motion import acceleration
# using first equation
acceleration(v_delta=5, t=2.5)
#output: 2.0
# using second equation
acceleration(vi=1, vf=6, t=2.5)
#output: 2.0
```

## Project details

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agnm-1.0.2.tar.gz
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agnm-1.0.2-py3-none-any.whl
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