diff --git a/tests/media/testMagneticField.cpp b/tests/media/testMagneticField.cpp
index 8b3eed7cb4f92e1cc07875986950ee97dc2fc2a3..b5526547350a24df9a17d80a7e04b3ad9e0a4dc8 100644
--- a/tests/media/testMagneticField.cpp
+++ b/tests/media/testMagneticField.cpp
@@ -89,13 +89,13 @@ TEST_CASE("UniformMagneticField w/ Homogeneous Medium") {
   MagneticFieldVector Earth_B_1 = get_wmm(gCS, 2022.5, 100_km, -80, -120);
   MagneticFieldVector Earth_B_2 = get_wmm(gCS, 2022.5, 0_km, 0, 120);
   MagneticFieldVector Earth_B_3 = get_wmm(gCS, 2020, 100_km, 80, 0);
-  CHECK(Earth_B_1.getX(gCS) / 1_nT == Approx(5815));
-  CHECK(Earth_B_1.getY(gCS) / 1_nT == Approx(14803));
-  CHECK(Earth_B_1.getZ(gCS) / 1_nT == Approx(49755.3));
-  CHECK(Earth_B_2.getX(gCS) / 1_nT == Approx(39684.7));
-  CHECK(Earth_B_2.getY(gCS) / 1_nT == Approx(-42.2));
-  CHECK(Earth_B_2.getZ(gCS) / 1_nT == Approx(10809.5));
-  CHECK(Earth_B_3.getX(gCS) / 1_nT == Approx(6261.8));
-  CHECK(Earth_B_3.getY(gCS) / 1_nT == Approx(-185.5));
-  CHECK(Earth_B_3.getZ(gCS) / 1_nT == Approx(-52429.1));
+  CHECK(Earth_B_1.getX(gCS) / 1_nT == Approx(5815).margin(0.01));
+  CHECK(Earth_B_1.getY(gCS) / 1_nT == Approx(14803).margin(0.01));
+  CHECK(Earth_B_1.getZ(gCS) / 1_nT == Approx(49755.3).margin(0.01));
+  CHECK(Earth_B_2.getX(gCS) / 1_nT == Approx(39684.7).margin(0.01));
+  CHECK(Earth_B_2.getY(gCS) / 1_nT == Approx(-42.2).margin(0.01));
+  CHECK(Earth_B_2.getZ(gCS) / 1_nT == Approx(10809.5).margin(0.01));
+  CHECK(Earth_B_3.getX(gCS) / 1_nT == Approx(6261.8).margin(0.01));
+  CHECK(Earth_B_3.getY(gCS) / 1_nT == Approx(-185.5).margin(0.01));
+  CHECK(Earth_B_3.getZ(gCS) / 1_nT == Approx(-52429.1).margin(0.01));
 }